George Gregory Malliaras · 3 RESEARCH My research is in the area of bioelectronics, specifically the application of organic electronic materials in neural interfacing, aiming to

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George Gregory Malliaras

Professor Department of Bioelectronics, Ecole Nationale Supérieure des Mines de Saint Etienne, France

Mail : 880 route de Mimet, 13541 Gardanne, France Tel : +33 (0)4 42 61 66 44; Email: [email protected]

Education

University of Groningen (the Netherlands) Ph.D. awarded with highest honors (cum laude) in Mathematics and Physical Sciences. 1995 Thesis research on photorefractivity in polymers. Thesis advisor: Prof. Georges Hadziioannou (currently at University of Bordeaux).

Aristotle University of Thessaloniki (Greece)

B.S. in Physics. 1991

Professional Experience

Ecole Nationale Supérieure des Mines de Saint Etienne (France) Professor (classe exceptionnelle since 2012), Department of Bioelectronics. 2009 – Present Head, Department of Bioelectronics. 2009 – 2016

Cornell University, Ithaca (NY)

Lester B. Knight Director, Cornell NanoScale Science and Technology Facility. 2006 – 2009 Associate Professor, Department of Materials Science and Engineering. 2004 – 2009 Director of Graduate Studies, Materials Science and Engineering. 2004 – 2006 Member of Graduate Field, Applied & Engineering Physics(*). 2002 – 2009 Member of Graduate Field, Electrical & Computer Engineering(*). 2002 – 2009 Assistant Professor, Department of Materials Science and Engineering. 1999 – 2004

IBM Almaden Research Center, San Jose (CA)

Postdoctoral Fellow, Center for Polymer Interfaces and Macromolecular Assemblies. 1997 –1998 Advisor: Prof. Georges Hadziioannou

University of Groningen (the Netherlands) Postdoctoral Fellow, Materials Science Center. 1995 – 1997 Advisor: Dr. J. Campbell Scott

Honors and Awards

Fellow, Royal Society of Chemistry, UK (2010). NY Academy of Sciences Blavatnik Award for Young Scientists (2007). DuPont Young Professor Grant (2005). NSF Faculty Early Career Development Award (2000). Cornell University awards: Fiona Ip Li ’78 and Donald Li ’75 Excellence in Teaching Award (2001),

James M. and Marsha D. McCormick Award for Excellence in Advising First Year Students (twice). Ph.D. awarded with highest honors (cum laude).

(*) Admission to these Graduate Fields allowed me to supervise Ph.D. thesis in Applied Physics & Engineering, and in Electrical & Computer Engineering.

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Professional Activities

Editorial o Associate Editor, Science Advances, 2015 – present. o Member of the Editorial Advisory Board, Advanced Materials Technologies, 2016 – present. o Member of the Editorial Advisory Board, MRS Communications, 2012 – present. o Member of the Advisory Board, Journal of Materials Chemistry B: Materials for Biology and

Medicine, 2012 – present. o Past: Chairman of the Editorial Board, Journal of Materials Chemistry, 2007 – 2010;

Member of the Editorial Board, Sensors, 2006 – 2013; Associate Editor, Japanese Journal of Applied Physics, 2005 – 2014; Guest Editor, APL Materials (2014), Advanced Materials (2014), Japanese Journal of Applied Physics (2005), Journal of Polymer Science: Polymer Physics (2003), Journal of Materials Chemistry B (2013).

Boards/Committees o Executive Committee of the European Materials Research Society, 2016 – present. o Member, MRS Government Policy Committee, 2014 – present. o Scientific Advisory Board, Max Planck Institute for Polymer Research in Mainz, Germany,

2013 – present. o Chair of the Scientific Advisory Board, Centre for Research on Adaptive Nanostructures and

Nanodevices, Trinity College Dublin, Ireland, 2014 – present (member since 2010). o Scientific Advisory Board, Center for Organic Bioelectronics, Karolinska Institute and

Linköping University, Sweden, 2007 – present. o Standing Committee of External Evaluators for the Italian Institute of Technology, 2013 –

present. o International Advisory Board, ELORPrintTech, University of Bordeaux, 2015 – present. o Scientific Advisory Board, Orthogonal, Inc., 2009 – present. o Past: Scientific Advisory Board, Nano Terra, Inc., 2009 – 2012; Scientific Advisory Board,

KAUST-Cornell Center for Energy and Sustainability, Cornell University, Ithaca, NY, 2010 – 2013; Board of Directors, Infotonics Technology Center, Inc., Canandaigua, NY, 2007 – 2008.

Conferences o 2015 MRS Fall Meeting Chair. o Lead organizer, fpi6 (6th Symposium on Functional pi-Electron Systems), Ithaca, NY, June

2004. o Organizer of symposia for Gordon Research Conferences, Materials Research Society

(MRS), European MRS (E-MRS), American Physical Society (APS), American Chemical Society (ACS), Faraday Discussions (RSC), Minerals, Metals and Materials Society (TMS), and Society of Imaging Science and Technology (IS&T).

Various o 200+ papers in peer-reviewed journals, 300+ invited talks. o 16,000+ citations, h-index = 70 (google scholar, 8/2016).

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RESEARCH

My research is in the area of bioelectronics, specifically the application of organic electronic materials in neural interfacing, aiming to understand how the brain works and to develop new tools for the diagnosis and treatment of neurological disorders. Among our achievements are (i) the development of ultra-conformable microelectrode arrays for recording corticograms, recently used in the clinic to record single neuron activity from the surface of the brain of epileptic patients, (ii) the first use of a transistor in recording brain activity, resulting in record-high signal-to-noise ratio, and (iii) the development of an electrophoretic device that stops epileptiform activity in a brain slice model through localized drug delivery. I am also spearheading a new effort in neuromorphic devices for processing bioelectronics signals. Prior to my move to France in 2009, I was working in the field of organic electronics. My interests included understanding the growth mechanisms of organic thin films, exploring the fundamentals of charge injection and transport in organic semiconductors, fabricating novel devices from organic semiconductors (electroluminescent devices, photovoltaic cells, and transistors), and investigating their device physics.

Representative publications in bioelectronics

1. J. Rivnay, P. Leleux, M. Ferro, M. Sessolo, A. Williamson, D.A. Koutsouras, D. Khodagholy, M. Ramuz, X. Strakosas, R.M. Owens, C. Benar, J.-M. Badier, C. Bernard, and G.G. Malliaras, “High performance transistors for bioelectronics through tuning of channel thickness”, Sci. Adv. 1, e1400251 (2015).

2. M. A. Williamson, J. Rivnay, L. Kergoat, A. Jonsson, S. Inal, I. Uguz, M. Ferro, A. Ivanov, D.T. Simon, M. Berggren, G.G. Malliaras, and C. Bernard, “Controlling epileptiform activity with organic electronic ion pumps”, Adv. Mater. 27, 3138 (2015).

3. D. Khodagholy, J.N. Gelinas, T. Thesen, W. Doyle, O. Devinsky, G.G. Malliaras, and G. Buzsáki, “NeuroGrid: recording action potentials from the surface of the brain”, Nature Neurosci. 18, 310 (2015).

4. D. Khodagholy, J. Rivnay, M. Sessolo, M. Gurfinkel, P. Leleux, L.H. Jimison, E. Stavrinidou, T. Herve, S. Sanaur, R.M. Owens, and G.G. Malliaras, “High transconductance organic electrochemical transistors”, Nature Comm. 4, 2133 (2013).

5. D. Khodagholy, T. Doublet, P. Quilichini, M. Gurfinkel, P. Leleux, A. Ghestem, E. Ismailova, T. Herve, S. Sanaur, C. Bernard, and G.G. Malliaras, “In vivo recordings of brain activity using organic transistors”, Nature Comm. 4, 1575 (2013).

6. D. Khodagholy, T. Doublet, M. Gurfinkel, P. Quilichini, E. Ismailova, P. Leleux, T. Herve, S. Sanaur, C. Bernard, and G.G. Malliaras, “Highly conformable conducting polymer electrodes for in vivo recordings”, Adv. Mater. 36, H268 (2011).

Representative publications in organic electronics

1. M. Kanungo, H. Lu, G.G. Malliaras, and G.B. Blanchet, “Suppression of metallic conductivity of single-walled carbon nanotubes via cycloaddition reactions”, Science 323, 234 (2009).

2. A.A. Zakhidov, J.-K. Lee, H.H. Fong, J.A. DeFranco, M. Chatzichristidi, P. Taylor, C.K. Ober, and G.G. Malliaras, “Hydrofluoroethers as orthogonal solvents for chemical processing of organic electronic materials”, Adv. Mater. 20, 3481 (2008).

3. J.D. Slinker, J.A. De Franco, M.J. Jaquith, W.R. Silveira, Y.-W. Zhong, J.M. Moran-Mirabal, H.G. Craighead, H.D. Abruña, J.A. Marohn, and G.G. Malliaras, “Direct measurement of the electric field distribution in a light-emitting electrochemical cell”, Nature Mater. 6, 894 (2007).

4. D.A. Bernards, S. Flores-Torres, H.D. Abruña, and G.G. Malliaras, “Electroluminescence and photovoltaic response in ionic junctions”, Science 313, 1416 (2006).

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5. A.C. Mayer, A. Kasimirov, and G.G. Malliaras, “The dynamics of bimodal growth in pentacene thin films”, Phys. Rev. Lett. 97, 105503 (2006).

6. G.G. Malliaras and R.H. Friend, “An organic electronics primer”, Physics Today 58, 53 (2005).

EDUCATION & STUDENT SUPERVISION

Courses developed & taught

Developed and taught graduate level module on “Bioelectronics” at EMSE. Developed and taught graduate level course “Organic and Molecular Electronics” at Cornell. Developed and taught undergraduate level courses “Electronic Materials for the Information Age”,

“Atomic and Molecular Structure of Matter”, and “Materials Design in Electronic Packaging” at Cornell University.

Ph.D. and postdoc supervision

Currently: Ilke Uguz (2016), Julie Oziat (2016), Thomas Lonjaret (2016), Eloise Bihar (2016), Marcel Braendlein (2017), Shahab Mazinani (2017), Jolien Pas (2017), Ecole des Mines de St. Etienne. Graduated :

19. Dimitrios Koutsouras "Conducting polymer devices for in vitro electrophysiology", EMSE (2016).

18. Gaëtan Scheiblin "Development of lactate sensors and transfer to printed electronics", EMSE (2016).

17. Marc Ferro "Applications of orthogonal lithography in bioelectronics", EMSE (2016). 16. Thomas Doublet, “Neuroscience applications of organic electronic devices”, Aix Marseille

University (2013). 15. Pierre Leleux “Conducting polymer devices for electrophysiological recordings”, Aix Marseille

University (2013). 14. Scherrine Tria “Integration of living cells with organic transistors for the rapid detection of

toxins and enteric pathogens”, EMSE (2013). 13. Eleni Stavrinidou “Understanding and engineering ion transport in conducting polymers”,

EMSE (2013). 12. Dion Khodagholy “Conducting polymer devices for interfacing with biology”, EMSE (2012). 11. Chung Han Wu “Low temperature preparation of wide band-gap metal oxide thin films with

novel designed solution processes”, Cornell (2011). 10. Vladimir Pozdin “Design and growth of organic semiconductors for organic thin film

transistors”, Cornell (2011). 9. Yee-Fun Lim “Solution processed solar cell technologies”, Cornell (2011). 8. John DeFranco “Patterning and processing of organic electronic devices using

photolithography”, Cornell (2011). 7. Matt Lloyd “Organic photovoltaics from small molecules”, Cornell (2007). 6. Dan Bernards “Leveraging ionic charge in organic semiconductor devices”, Cornell (2007). 5. Jason Slinker “Electroluminescent devices from ionic transition metal complexes”, Cornell

(2007). 4. Alex Mayer “Growth and structure dynamics of pentacene thin films with applications to

OTFTs and OPVs”, Cornell (2006). 3. Jeff Mabeck “Chemical and biological sensing with organic thin-film transistors”, Cornell

(2006). 2. Yuanjia Zhang “Nanoscale organic thin film transistors”, Cornell (2006).

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1. Yulong Shen “Charge injection and transport in organic semiconductors”, Cornell (2003). 7 postdocs supervised at EMSE, 17 postdocs supervised at Cornell University. Former graduate students/postdocs are currently professors at Columbia University (Dion

Khodagholy), University of Texas, Dallas (Jason Slinker), Texas State University (Alex Zakhidov), Bowling Green State University (Liangfeng Sun), South Dakota School of Mines (Zhengtao Zhu), King Abdullah University of Science and Technology (Aram Amassian, Sahika Inal), Shanghai Jiao Tong University (Hon Hang Fong), École Polytechnique de Montréal (Fabio Cicoira). Three more are currently interviewing for academic positions.

External Examiner in HDR (Habilitation à Diriger des Recherches) committees

Guillaume Wantz, University of Bordeaux, France (2013); Anne Charrier, University of Aix Marseille, France (2013); Jean Charles Ribierre, University of Strasbourg, France (2011).

External examiner in Ph.D. committees

Celia Pacheco Moreno, Imperial College London (2016); Jorge Herrera Morales, University of Grenoble, France (2015); Fulvio Michelis, Ecole Polytechnique, France (2015); Cristina Roldán Carmona, University of Cordoba, Spain (2014); Peter-Herbert Lienerth, University of Strasbourg, France (2014); Paul Prevot, University of New South Wales, Australia (2013); Chang Hyun Kim, Ecole Polytechnique, France (2013); Giuseppe Tarabella, University of Parma, Italy (2012); Micael Charbonneau, University of Grenoble, France (2011); Matteo Tonezzer, University of Trento, Italy (2011); Mark-Jan Spijkman, University of Groningen, the Netherlands (2011); Loig Kergoat, Université Paris Diderot-Paris 7, France (2010); Ruben Costa, University of Valencia, Spain (2010); Andrea Maurano, Imperial College London, UK (2010); Omid Yaghmazadeh, Ecole Polytechnique, France (2010); Mahiar Hamedi, University of Linkoping, Sweden (2008); Oana Jurchescu, University of Groningen, the Netherlands (2006); David Nillson, University of Linkoping, Sweden (2005); Sjoerd Veenstra, University of Groningen, the Netherlands (2001).

UNIVERSITY MANAGMENT

Head of Department of Bioelectronics, Ecole des Mines de Saint Etienne (9/2009 – 9/2016)

I started the Department of Bioelectronics (BEL - www.bel.emse.fr) in the Georges Charpak – Provence campus of the Ecole des Mines de St. Etienne. My job included setting the scientific direction of the Department, recruiting permanent staff (faculty and engineers), coordinating our contribution to the School’s curriculum, and raising funds to build the Department’s laboratories. Several research and training grants have been obtained by international, EU, French, and regional agencies, foundations and industry, including an ERC Starter Grant (won by Roisin Owens to develop in vitro diagnostics). These programs led to (cumulative) funding corresponding to >100 human∙years of postdoc/student salary. As a result, at the end of my tenure, BEL had 5 permanent staff (including myself) and a total of ~30 researchers (45% women), with expertise in physics, engineering, biology and neuroscience.

Lester B. Knight Director, Cornell NanoScale Science and Technology Facility (8/2006 – 8/2009)

The Cornell NanoScale Science and Technology Facility (CNF - www.cnf.cornell.edu) is a National Science Foundation-supported user facility, with the mission to support a broad range of nanoscale science and technology projects by providing state-of-the-art infrastructure coupled with extensive staff support. With a 1,600 m2 cleanroom, nanofabrication equipment of $140M replacement value, an annual

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budget of $6.7M, and 25 full-time staff, CNF serves over 600 users a year (2009 figures). About 50% of the users are from outside Cornell (academia and industry). My job as the Director included setting the scientific direction for the facility, attracting new users, and fundraising to keep the facility at the state-of-the-art.

TECHNOLOGY TRANSFER

Orthogonal Inc., 1999 Lake Avenue, Rochester, NY 14650, U.S.A.

I co-founded Orthogonal Inc. (www.orthogonalinc.com) in 2009 in order to commercialize a technology that was developed in my lab at Cornell University. The company develops and sells fluorinated photoresists, used in the photolithographic patterning of flat panel displays. I serve as an advisor on the technical and business side of the company.

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LIST OF PUBLICATIONS

Papers in Peer-Reviewed Journals

1) A. Giovannitti, C.B. Nielsen, D.-T. Sbircea, S. Inal, M. Donahue, M.R. Niazi, D.A. Hanifi, A. Amassian, G.G. Malliaras, J. Rivnay, and I. McCulloch, “N-type organic electrochemical transistors with stability in water”, Nature Comm. 7, 13066 (2016).

2) D. Mawad, A. Artzy-Schnirman, J. Tonkin, J. Ramos, S. Inal, M.M. Mahat, N. Darwish, L. Zwi-Dantsis, G.G. Malliaras, J.J. Gooding, A. Lauto, and M.M. Stevens, “An electroconductive hydrogel based on functional poly (ethylenedioxy thiophene)”, Chem. Mater., in press (2016).

3) A.‐M. Pappa, V.F. Curto, M. Braendlein, X. Strakosas, M.J. Donahue, M. Fiocchi, G.G. Malliaras, and R.M. Owens, “Organic Transistor Arrays Integrated with Finger‐Powered Microfluidics for Multianalyte Saliva Testing”, Adv. Healthcare Mater., in press (2006).

4) M. Braendlein, T. Lonjaret, P. Leleux, J.‐M. Badier, and G.G. Malliaras, “Voltage Amplifier Based on Organic Electrochemical Transistor”, Adv. Sci., in press (2016).

5) W. Lee, D. Kim, J. Rivnay, N. Matsuhisa, T. Lonjaret, T. Yokota, H. Yawo, M. Sekino, G.G. Malliaras, and T. Someya, “Integration of Organic Electrochemical and Field‐Effect Transistors for Ultraflexible, High Temporal Resolution Electrophysiology Arrays”, Adv. Mater., in press (2016).

6) A. Jonsson, S. Inal, A.J. Williamson, L. Kergoat, J. Rivnay, D. Khodagholy, M. Berggren, C. Bernard, G.G. Malliaras, D.T. Simon, “Bioelectronic neural pixel: Chemical stimulation and electrical sensing at the same site”, Proc. Natl. Acad. Sci. 113, 9440 (2016).

7) C.B. Nielsen, A. Giovannitti, D.-T. Sbircea, E. Bandiello, M.R. Niazi, D.A. Hanifi, M. Sessolo, A. Amassian, G.G. Malliaras, J. Rivnay, and I. McCulloch, “Molecular Design of Semiconducting Polymers for High-Performance Organic Electrochemical Transistors”, J. Am. Chem. Soc., in press (2016).

8) J.T. Friedlein, M.J. Donahue, S.E. Shaheen, G.G. Malliaras, and R.R. McLeod, “Microsecond Response in Organic Electrochemical Transistors: Exceeding the Ionic Speed Limit”, Adv. Mater., in press (2016).

9) E. Bihar, Y. Deng, T. Miyake, M. Saadaoui, G.G. Malliaras, and M. Rolandi, “A disposable paper breathalyzer with an alcohol sensing organic electrochemical transistor”, Sci. Rep. 6, 27582 (2016).

10) P. Gkoupidenis, D.A. Koutsouras, T. Lonjaret, J.A. Fairfield, and G.G. Malliaras, “Orientation selectivity in a multi-gated organic electrochemical transistor”, Sci. Rep. 6, 27007 (2016).

11) J. Rivnay, S. Inal, B.A. Collins, M. Sessolo, E. Stavrinidou, X. Strakosas, C. Tassone, D.M. Delongchamp, and G.G. Malliaras, “Structural control of mixed ionic and electronic transport in conducting polymers”, Nature Comm., in press (2016).

12) C. M. Proctor, J. Rivnay, and G. G. Malliaras, "Understanding volumetric capacitance in conducting polymers”, J. Polym. Sci. Part B: Polym. Phys. 54, 1433 (2016).

13) D. C. Martin and G. G. Malliaras, "Interfacing Electronic and Ionic Charge Transport in Bioelectronics”, ChemElectroChem 3, 686 (2016).

14) S. Inal, G. G. Malliaras, and J. Rivnay, "Optical study of electrochromic moving fronts for the investigation of ion transport in conducting polymers”, J. Mater. Chem. C, in press (2016).

15) J. T. Friedlein, S. E. Shaheen, G. G. Malliaras, and R. R. McLeod, "Optical Measurements Revealing Nonuniform Hole Mobility in Organic Electrochemical Transistors”, Adv. Electron. Mater., in press (2016).

16) S. Takamatsu, T. Lonjaret, E. Ismailova, A. Masuda, T. Itoh, and G. G. Malliaras, "Wearable Keyboard Using Conducting Polymer Electrodes on Textiles”, Adv. Mater., in press (2016).

17) E. Moyen, A. Hama, E. Ismailova, L. Assaud, G. Malliaras, M. Hanbücken, and R. M. Owens, "Nanostructured conducting polymers for stiffness controlled cell adhesion”, Nanotechnology 27, 74001 (2016).

18) S. Inal, J. Rivnay, A. I. Hofmann, I. Uguz, M. Mumtaz, D. Katsigiannopoulos, C. Brochon, E. Cloutet, G. Hadziioannou, and G. G. Malliaras, "Organic electrochemical transistors based on

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PEDOT with different anionic polyelectrolyte dopants”, J. Polym. Sci. Part B: Polym. Phys. 54, 147 (2016).

19) A. Giovannitti, C. B. Nielsen, J. Rivnay, M. Kirkus, D. J. Harkin, A. J. White, H. Sirringhaus, G. G. Malliaras, and I. McCulloch, "Sodium and Potassium Ion Selective Conjugated Polymers for Optical Ion Detection in Solution and Solid State”, Adv. Funct. Mater. 26, 514 (2016).

20) A. Williamson, J. Rivnay, L. Kergoat, A. Jonsson, S. Inal, I. Uguz, M. Ferro, A. Ivanov, T. A. Sjöström, D. T. Simon, M. Berggren, G. G. Malliaras, and C. Bernard, "Controlling Epileptiform Activity with Organic Electronic Ion Pumps”, Adv. Mater. 27, 3138 (2015).

21) A. Williamson, M. Ferro, P. Leleux, E. Ismailova, A. Kaszas, T. Doublet, P. Quilichini, J. Rivnay, B. Rózsa, G. Katona, C. Bernard, and G. G. Malliaras, "Localized Neuron Stimulation with Organic Electrochemical Transistors on Delaminating Depth Probes”, Adv. Mater. 27, 4405 (2015).

22) M. E. Welch, T. Doublet, C. Bernard, G. G. Malliaras, and C. K. Ober, "A glucose sensor via stable immobilization of the GOx enzyme on an organic transistor using a polymer brush”, J. Polym. Sci. Part A: Polym. Chem. 53, 372 (2015).

23) A. M.-D. Wan, S. Inal, T. Williams, K. Wang, P. Leleux, L. Estevez, E. P. Giannelis, C. Fischbach, G. G. Malliaras, and D. Gourdon, "3D conducting polymer platforms for electrical control of protein conformation and cellular functions”, J. Mater. Chem. B 3, 5040 (2015).

24) S. Takamatsu, T. Lonjaret, D. Crisp, J.-M. Badier, G. G. Malliaras, and E. Ismailova, "Direct patterning of organic conductors on knitted textiles for long-term electrocardiography”, Sci. Rep. 5, 15003 (2015).

25) G. Scheiblin, A. Aliane, X. Strakosas, V. F. Curto, R. Coppard, G. Marchand, R. M. Owens, P. Mailley, and G. G. Malliaras, "Screen-printed organic electrochemical transistors for metabolite sensing”, MRS Comm. 5, 507 (2015).

26) J. Rivnay, P. Leleux, A. Hama, M. Ramuz, M. Huerta, G. G. Malliaras, and R. M. Owens, "Using white noise to gate organic transistors for dynamic monitoring of cultured cell layers”, Sci. Rep. 5, 11613 (2015).

27) J. Rivnay, P. Leleux, M. Ferro, M. Sessolo, A. Williamson, D. A. Koutsouras, D. Khodagholy, M. Ramuz, X. Strakosas, R. M. Owens, C. Benar, J.-M. Badier, C. Bernard, and G. G. Malliaras, "High-performance transistors for bioelectronics through tuning of channel thickness”, Sci. Adv. 1, e1400251 (2015).

28) G. Malliaras and M. R. Abidian, "Organic Bioelectronic Materials and Devices”, Adv. Mater. 27, 7492 (2015).

29) D. Khodagholy and G. G. Malliaras, "Enregistrer l’activité unitaire des neurones sans pénétrer le cerveau”, Médecine/Sciences 31, 609 (2015).

30) D. Khodagholy, J. N. Gelinas, T. Thesen, W. Doyle, O. Devinsky, G. G. Malliaras, and G. Buzsaki, "NeuroGrid: recording action potentials from the surface of the brain”, Nat. Neurosci. 18, 310 (2015).

31) M. Isik, T. Lonjaret, H. Sardon, R. Marcilla, T. Herve, G. G. Malliaras, E. Ismailova, and D. Mecerreyes, "Cholinium-based ion gels as solid electrolytes for long-term cutaneous electrophysiology”, J. Mater. Chem. C 3, 8942 (2015).

32) P. Gkoupidenis, N. Schaefer, X. Strakosas, J. A. Fairfield, and G. G. Malliaras, "Synaptic plasticity functions in an organic electrochemical transistor”, Appl. Phys. Lett. 107, 263302 (2015).

33) P. Gkoupidenis, N. Schaefer, B. Garlan, and G. G. Malliaras, "Neuromorphic Functions in PEDOT: PSS Organic Electrochemical Transistors”, Adv. Mater. 27, 7176 (2015).

34) R. E. Cameron and G. G. Malliaras, "Preface to the special issue: Biomaterials and Bioelectronics”, APL Materials 3, 14601 (2015).

35) M. E. Brennan-Fournet, M. Huerta, Y. Zhang, G. Malliaras, and R. M. Owens, "Detection of fibronectin conformational changes in the extracellular matrix of live cells using plasmonic nanoplates”, J. Mater. Chem. B 3, 9140 (2015).

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36) S. A. Tria, M. Ramuz, M. Huerta, P. Leleux, J. Rivnay, L. H. Jimison, A. Hama, G. G. Malliaras, and R. M. Owens, "Dynamic Monitoring of Salmonella typhimurium Infection of Polarized Epithelia Using Organic Transistors”, Adv. Healthc. Mater. 3, 1053 (2014).

37) X. Strakosas, M. Sessolo, A. Hama, J. Rivnay, E. Stavrinidou, G. G. Malliaras, and R. M. Owens, "A facile biofunctionalisation route for solution processable conducting polymer devices”, J. Mater. Chem. B 2, 2537 (2014).

38) E. Stavrinidou, M. Sessolo, B. Winther-Jensen, S. Sanaur, and G. G. Malliaras, "A physical interpretation of impedance at conducting polymer/electrolyte junctions”, AIP Advances 4, 17127 (2014).

39) E. Stavrinidou, O. Winther-Jensen, B. S. Shekibi, V. Armel, J. Rivnay, E. Ismailova, S. Sanaur, G. G. Malliaras, and B. Winther-Jensen, "Engineering hydrophilic conducting composites with enhanced ion mobility”, PCCP 16, 2275 (2014).

40) M. Sessolo, J. Rivnay, E. Bandiello, G. G. Malliaras, and H. J. Bolink, "Ion-Selective Organic Electrochemical Transistors”, Adv. Mater. 26, 4803 (2014).

41) J. Rivnay, R. M. Owens, and G. G. Malliaras, "The Rise of Organic Bioelectronics”, Chem. Mater. 26, 679 (2014).

42) P. Leleux, J. Rivnay, T. Lonjaret, J.-M. Badier, C. Bénar, T. Hervé, P. Chauvel, and G. G. Malliaras, "Organic Electrochemical Transistors for Clinical Applications”, Adv. Healthc. Mater. 4, 142 (2014).

43) P. Leleux, C. Johnson, X. Strakosas, J. Rivnay, T. Hervé, R. M. Owens, and G. G. Malliaras, "Ionic Liquid Gel‐Assisted Electrodes for Long‐Term Cutaneous Recordings”, Adv. Healthc. Mater. 3, 1377 (2014).

44) P. Leleux, J. M. Badier, J. Rivnay, C. Benar, T. Herve, P. Chauvel, and G. G. Malliaras, "Conducting Polymer Electrodes for Electroencephalography”, Adv. Healthc. Mater. 3, 490 (2014).

45) S. Inal, J. Rivnay, P. Leleux, M. Ferro, M. Ramuz, J. C. Brendel, M. M. Schmidt, M. Thelakkat, and G. G. Malliaras, "A High Transconductance Accumulation Mode Electrochemical Transistor”, Adv. Mater. 26, 7450 (2014).

46) S. Higgins, J. Hodgkiss, N. Plank, L. Torsi, P. Cowper, G. Malliaras, Y. Braeken, N. Laurand, I. Samuel, and A. Pomorska, "Organic bioelectronics: General discussion”, Faraday Discussions 174, 413 (2014).

47) G. C. Faria, D. T. Duong, A. Salleo, C. A. Polyzoidis, S. Logothetidis, J. Rivnay, R. Owens, and G. G. Malliaras, "Organic electrochemical transistors as impedance biosensors”, MRS Comm. 4, 189 (2014).

48) A. M. D. Wan, E. M. Chandler, M. Madhavan, D. W. Infanger, C. K. Ober, D. Gourdon, G. G. Malliaras, and C. Fischbach, "Fibronectin conformation regulates the proangiogenic capability of tumor-associated adipogenic stromal cells”, Biochimica et Biophysica Acta 1830, 4314 (2013).

49) E. Stavrinidou, P. Leleux, H. Rajaona, D. Khodagholy, J. Rivnay, M. Lindau, S. Sanaur, and G. G. Malliaras, "Direct Measurement of Ion Mobility in a Conducting Polymer”, Adv. Mater. 25, 4488 (2013).

50) E. Stavrinidou, P. Leleux, H. Rajaona, M. Fiocchi, S. Sanaur, and G. G. Malliaras, "A simple model for ion injection and transport in conducting polymers”, J. Appl. Phys. 113, (2013).

51) M. Sessolo, D. Khodagholy, J. Rivnay, F. Maddalena, M. Gleyzes, E. Steidl, B. Buisson, and G. G. Malliaras, "Easy-to-Fabricate Conducting Polymer Microelectrode Arrays”, Adv. Mater. 25, 2135 (2013).

52) J. Rivnay, P. Leleux, M. Sessolo, D. Khodagholy, T. Herve, M. Fiocchi, and G. G. Malliaras, "Organic Electrochemical Transistors with Maximum Transconductance at Zero Gate Bias”, Adv. Mater. 25, 7010 (2013).

53) G. G. Malliaras, "Organic bioelectronics: A new era for organic electronics”, Biochimica et Biophysica Acta 1830, 4286 (2013).

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54) D. Khodagholy, T. Doublet, P. Quilichini, M. Gurfinkel, P. Leleux, A. Ghestem, E. Ismailova, T. Hervé, S. Sanaur, C. Bernard, and G. G. Malliaras, "In vivo recordings of brain activity using organic transistors”, Nature Comm. 4, 1575 (2013).

55) D. Khodagholy, J. Rivnay, M. Sessolo, M. Gurfinkel, P. Leleux, L. H. Jimison, E. Stavrinidou, T. Herve, S. Sanaur, R. M. Owens, and G. G. Malliaras, "High transconductance organic electrochemical transistors”, Nat Comm. 4, 2133 (2013).

56) M. Bongo, O. Winther-Jensen, S. Himmelberger, X. Strakosas, M. Ramuz, A. Hama, E. Stavrinidou, G. G. Malliaras, A. Salleo, B. Winther-Jensen, and R. M. Owens, "PEDOT:gelatin composites mediate brain endothelial cell adhesion”, J. Mater. Chem. B 1, 3860 (2013).

57) V. Armel, J. Rivnay, G. Malliaras, and B. Winther-Jensen, "Unexpected Interaction between PEDOT and Phosphonium Ionic Liquids”, J. Am. Chem. Soc. 135, 11309 (2013).

58) M. R. Abidian, A. T. S. Wee, and G. G. Malliaras, "Themed issue on carbon bioelectronics”, J. Mater. Chem. B 1, 3727 (2013).

59) A. M. D. Wan, R. M. Schur, C. K. Ober, C. Fischbach, D. Gourdon, and G. G. Malliaras, "Electrical Control of Protein Conformation”, Adv. Mater. 24, 2501 (2012).

60) G. Tarabella, G. Nanda, M. Villani, N. Coppede, R. Mosca, G. G. Malliaras, C. Santato, S. Iannotta, and F. Cicoira, "Organic electrochemical transistors monitoring micelle formation”, Chem. Sci. 3, 3432 (2012).

61) L. F. Sun, J. J. Choi, D. Stachnik, A. C. Bartnik, B. R. Hyun, G. G. Malliaras, T. Hanrath, and F. W. Wise, "Bright infrared quantum-dot light-emitting diodes through inter-dot spacing control”, Nature Nanotech. 7, 369 (2012).

62) A. McGlashon, W. M. Zhang, D. M. Smilgies, M. Shkunov, K. Genevicius, K. S. Whitehead, A. Amassian, G. G. Malliaras, D. D. C. Bradley, M. Heeney, and A. J. Campbell, "Spectroscopic and morphological investigation of conjugated photopolymerisable quinquethiophene liquid crystals”, Curr. Appl. Phys. 12, E59 (2012).

63) D. Khodagholy, V. F. Curto, K. J. Fraser, M. Gurfinkel, R. Byrne, D. Diamond, G. G. Malliaras, F. Benito-Lopez, and R. M. Owens, "Organic electrochemical transistor incorporating an ionogel as a solid state electrolyte for lactate sensing”, J Mater Chem 22, 4440 (2012).

64) L. H. Jimison, A. Hama, X. Strakosas, V. Armel, D. Khodagholy, E. Ismailova, G. G. Malliaras, B. Winther-Jensen, and R. M. Owens, "PEDOT:TOS with PEG: a biofunctional surface with improved electronic characteristics”, J. Mater. Chem. 22, 19498 (2012).

65) L. H. Jimison, S. A. Tria, D. Khodagholy, M. Gurfinkel, E. Lanzarini, A. Hama, G. G. Malliaras, and R. M. Owens, "Measurement of Barrier Tissue Integrity with an Organic Electrochemical Transistor”, Adv. Mater. 24, 5919 (2012).

66) E. Ismailova, T. Doublet, D. Khodagholy, P. Quilichini, A. Ghestem, S. Y. Yang, C. Bernard, and G. G. Malliaras, "Plastic neuronal probes for implantation in cortical and subcortical areas of the rat brain”, Int. J. Nanotechnol. 9, 517 (2012).

67) L. Basiricò, P. Cosseddu, A. Scidà, B. Fraboni, G. G. Malliaras, and A. Bonfiglio, "Electrical characteristics of ink-jet printed, all-polymer electrochemical transistors”, Org. Electron. 13, 244 (2012).

68) A. A. Zakhidov, H. H. Fong, J. A. DeFranco, J.-K. Lee, P. G. Taylor, C. K. Ober, G. G. Malliaras, M. He, and M. G. Kane, "Fabrication of polymer-based electronic circuits using photolithography”, Appl. Phys. Lett. 99, 183308 (2011).

69) A. A. Zakhidov, J. K. Lee, J. A. DeFranco, H. H. Fong, P. G. Taylor, M. Chatzichristidi, C. K. Ober, and G. G. Malliaras, "Orthogonal processing: A new strategy for organic electronics”, Chem. Sci. 2, 1178 (2011).

70) S. Y. Yang, B. N. Kim, A. A. Zakhidov, P. G. Taylor, J.-K. Lee, C. K. Ober, M. Lindau, and G. G. Malliaras, "Detection of Transmitter Release from Single Living Cells Using Conducting Polymer Microelectrodes”, Adv. Mater. 23, H184 (2011).

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71) O. Yaghmazadeh, F. Cicoira, D. A. Bernards, S. Y. Yang, Y. Bonnassieux, and G. G. Malliaras, "Optimization of Organic Electrochemical Transistors for Sensor Applications”, J. Polym. Sci. Pol. Phys. 49, 34 (2011).

72) C. H. Wu, H. Y. Li, H. H. Fong, V. A. Pozdin, L. A. Estroff, and G. G. Malliaras, "Room-temperature preparation of crystalline TiO2 thin films and their applications in polymer/TiO2 hybrid optoelectronic devices”, Org. Electron. 12, 1073 (2011).

73) Y. Shu, Y. F. Lim, Z. Li, B. Purushothaman, R. Hallani, J. E. Kim, S. R. Parkin, G. G. Malliaras, and J. E. Anthony, "A survey of electron-deficient pentacenes as acceptors in polymer bulk heterojunction solar cells”, Chem. Sci. 2, 363 (2011).

74) G. Mattana, P. Cosseddu, B. Fraboni, G. G. Malliaras, J. P. Hinestroza, and A. Bonfiglio, "Organic electronics on natural cotton fibres”, Org. Electron. 12, 2033 (2011).

75) Z. Li, Y. F. Lim, J. B. Kim, S. R. Parkin, Y. L. Loo, G. G. Malliaras, and J. E. Anthony, "Isomerically pure electron-deficient anthradithiophenes and their acceptor performance in polymer solar cells”, Chem. Commun. 47, 7617 (2011).

76) D. Khodagholy, M. Gurfinkel, E. Stavrinidou, P. Leleux, T. Herve, S. Sanaur, and G. G. Malliaras, "High speed and high density organic electrochemical transistor arrays”, Appl. Phys. Lett. 99, 163304 (2011).

77) D. Khodagholy, T. Doublet, M. Gurfinkel, P. Quilichini, E. Ismailova, P. Leleux, T. Herve, S. Sanaur, C. Bernard, and G. G. Malliaras, "Highly Conformable Conducting Polymer Electrodes for In Vivo Recordings”, Adv. Mater. 23, H268 (2011).

78) H. H. Fong, J.-K. Lee, Y.-F. Lim, A. A. Zakhidov, W. W. Wong, A. B. Holmes, C. K. Ober, and G. G. Malliaras, "Orthogonal Processing and Patterning Enabled by Highly Fluorinated Light‐Emitting Polymers”, Adv. Mater. 23, 735 (2011).

79) A. A. Zakhidov, B. Jung, J. D. Slinker, H. D. Abruna, and G. G. Malliaras, "A light-emitting memristor”, Org. Electron. 11, 150 (2010).

80) S. Y. Yang, F. Cicoira, R. Byrne, F. Benito-Lopez, D. Diamond, R. M. Owens, and G. G. Malliaras, "Electrochemical transistors with ionic liquids for enzymatic sensing”, Chem. Comm. 46, 7972 (2010).

81) A. W. Tsen, F. Cicoira, G. G. Malliaras, and J. Park, "Photoelectrical imaging and characterization of point contacts in pentacene thin-film transistors”, Appl. Phys. Lett. 97, 23308 (2010).

82) G. Tarabella, C. Santato, S. Y. Yang, S. Iannotta, G. G. Malliaras, and F. Cicoira, "Effect of the gate electrode on the response of organic electrochemical transistors”, Appl. Phys. Lett. 97, 123304 (2010).

83) L. Sun, J. Fang, J. C. Reed, L. Estevez, A. C. Bartnik, B.-R. Hyun, F. W. Wise, G. G. Malliaras, and E. P. Giannelis, "Lead–Salt Quantum‐Dot Ionic Liquids”, Small 6, 638 (2010).

84) C. Stanier and G. Malliaras, "20th anniversary starts here!”, Journal of Materials Chemistry 20, 15 (2010).

85) R. M. Owens and G. G. Malliaras, "Organic electronics at the interface with biology”, MRS Bulletin 35, 449 (2010).

86) G. Malliaras and C. Stanier, "Editorial: Emerging Investigators”, J. Mater. Chem. 20, 1232 (2010). 87) D. A. Lyashenko, A. A. Zakhidov, V. A. Pozdin, and G. G. Malliaras, "Fabrication of high-

mobility poly(3-hexylthiophene) transistors at ambient conditions”, Org. Electron. 11, 1507 (2010). 88) J. K. Lee, H. H. Fong, A. A. Zakhidov, G. E. McCluskey, P. G. Taylor, M. Santiago-Berrios, H. D.

Abruna, A. B. Holmes, G. G. Malliaras, and C. K. Ober, "Semiperfluoroalkyl Polyfluorenes for Orthogonal Processing in Fluorous Solvents”, Macromol. 43, 1195 (2010).

89) Y. Kim, J. Do, J. Kim, S. Y. Yang, G. G. Malliaras, C. K. Ober, and E. Kim, "A Glucose Sensor Based on an Organic Electrochemical Transistor Structure Using a Vapor Polymerized Poly(3,4-ethylenedioxythiophene) Layer”, J.J. Appl. Phys. 49, 01AE10 (2010).

90) Y. Kim, G. G. Malliaras, C. K. Ober, and E. Kim, "An Electrochemical Glucose Sensor from an Organically Modified Nanocomposite of Viologen and TiO2”, J. Nanosci. Nanotech. 10, 6869 (2010).

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91) M. Kanungo, G. G. Malliaras, and G. B. Blanchet, "High performance organic transistors: Percolating arrays of nanotubes functionalized with an electron deficient olefin”, Appl. Phys. Lett. 97, 53304 (2010).

92) M. Q. He, J. F. Li, A. Tandia, M. Sorensen, F. X. Zhang, H. H. Fong, V. A. Pozdin, D. M. Smilgies, and G. G. Malliaras, "Importance of C-2 Symmetry for the Device Performance of a Newly Synthesized Family of Fused-Ring Thiophenes”, Chem. Mater. 22, 2770 (2010).

93) A. Gumus, J. P. Califano, A. M. D. Wan, J. Huynh, C. A. Reinhart-King, and G. G. Malliaras, "Control of cell migration using a conducting polymer device”, Soft Matter 6, 5138 (2010).

94) F. Cicoira, M. Sessolo, O. Yaghmazadeh, J. A. DeFranco, S. Y. Yang, and G. G. Malliaras, "Influence of Device Geometry on Sensor Characteristics of Planar Organic Electrochemical Transistors”, Adv. Mater. 22, 1012 (2010).

95) P. Bhatnagar, G. G. Malliaras, I. Kim, and C. A. Batt, "Multiplexed Protein Patterns on a Photosensitive Hydrophilic Polymer Matrix”, Adv. Mater. 22, 1242 (2010).

96) A. Amassian, V. A. Pozdin, R. P. Li, D. M. Smilgies, and G. G. Malliaras, "Solvent vapor annealing of an insoluble molecular semiconductor”, J. Mater. Chem. 20, 2623 (2010).

97) N.Y. Shim, D.A. Bernards, D.J. Macaya, J.A. DeFranco, M. Nikolou, R.M. Owens and G.G. Malliaras, “All-plastic electrochemical transistor for glucose sensing using a ferrocene mediator”, Sensors 9, 9896 (2009).

98) E. Murotani, J.-K. Lee, M. Chatzichristidi, A.A. Zakhidov, P.G. Taylor, E.L. Schwartz, G.G. Malliaras, and C.K. Ober, “Cross-linkable Molecular Glasses: Low Dielectric Constant Materials Patternable in Hydrofluoroethers”, ACS Appl. Mat. Interfaces 1, 2363 (2009).

99) A.M.D. Wan, D.J. Brooks, A. Gumus, C. Fischbach, and G.G. Malliaras, "Electrical control of cell density gradients on a conducting polymer surface", Chem. Comm. 35, 5278 (2009).

100) M. Q. He, J. F. Li, M. L. Sorensen, F. X. Zhang, R. R. Hancock, H. H. Fong, V. A. Pozdin, D. M. Smilgies, and G. G. Malliaras, "Alkylsubstituted thienothiophene semiconducting materials: structure-property relationships", J. Am. Chem. Soc. 131, 11930 (2009).

101) A. Amassian, V. A. Pozdin, T. V. Desai, S. Hong, A. R. Woll, J. D. Ferguson, J. D. Brock, G. G. Malliaras, and J. R. Engstrom, "Post-deposition reorganization of pentacene films deposited on low-energy surfaces", J. Mater. Chem. 19, 5580 (2009).

102) A. Amassian, T. V. Desai, S. Kowarik, S. Hong, A. R. Woll, G. G. Malliaras, F. Schreiber, and J. R. Engstrom, "Coverage dependent adsorption dynamics in hyperthermal organic thin film growth", J. Chem. Phys. 130, 124701 (2009).

103) Y. F. Lim, J. K. Lee, A. A. Zakhidov, J. A. DeFranco, H. H. Fong, P. G. Taylor, C. K. Ober, and G. G. Malliaras, "High voltage polymer solar cell patterned with photolithography", J. Mater. Chem. 19, 5394 (2009).

104) J. K. Lee, P. G. Taylor, A. A. Zakhidov, H. H. Fong, H. S. Hwang, M. Chatzichristidi, G. G. Malliaras, and C. K. Ober, "Orthogonal processing: A novel photolithographic patterning method for organic electronics", J. Photopolym. Sci. Technol. 22, 565 (2009).

105) Y. F. Lim, Y. Shu, S. R. Parkin, J. E. Anthony, and G. G. Malliaras, "Soluble n-type pentacene derivatives as novel acceptors for organic solar cells", J. Mater. Chem. 19, 3049 (2009).

106) P.G. Taylor, J.-K. Lee, A.A. Zakhidov, M. Chatzichristidi, H.H. Fong, J.A. DeFranco, G.G. Malliaras, and C.K. Ober, “Orthogonal patterning of PEDOT:PSS for organic electronics using hydrofluoroether solvents”, Adv. Mater. 21, 2314 (2009).

107) J.-K. Lee, M. Chatzichristidi, A.A. Zakhidov, H.S. Hwang, E.L. Schwartz, J. Sha, P.G. Taylor, H.H. Fong, J.A. DeFranco, E.Murotani, W.W. H. Wong, G.G. Malliaras, and C.K. Ober, “Acid-diffusion behaviour in organic thin films and its effect on patterning”, J. Mater. Chem. 19, 2986 (2009).

108) A. Papadimitratos, A.S. Killampalli, A. Amassian, J.L. Mack, G.G. Malliaras and J.R. Engstrom, “Organic thin film transistors of pentacene films fabricated from a supersonic molecular beam source”, Appl. Phys. A 95, 29 (2009).

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109) L. Sun, L. Bao, B.-R. Hyun, A. Bartnik, Y.-W. Zhong, J. Reed, D.-W. Pang, H.D. Abruña, G.G. Malliaras, and F. Wise, “Electrogenerated chemiluminescence from PbS quantum dots”, Nano Letters 9, 789 (2009).

110) J. J. Choi, Y. F. Lim, M. B. Santiago-Berrios, M. Oh, B. R. Hyun, L. F. Sung, A. C. Bartnik, A. Goedhart, G. G. Malliaras, H. D. Abruna, F. W. Wise, and T. Hanrath, "PbSe Nanocrystal Excitonic Solar Cells”, Nano Letters 9, 3749 (2009).

111) S.Y. Yang, J.A. DeFranco, Y.A. Sylvester, T.J. Gobert, D.J. Macaya, R.M. Owens and G.G. Malliaras, “Integration of a surface-directed microfluidic system with an organic electrochemical transistor array”, Lab Chip 9, 704 (2009).

112) M. Kanungo, H. Lu, G.G. Malliaras and G.B. Blanchet, “Suppression of Metallic Conductivity of Single-Walled Carbon Nanotubes via Cycloaddition Reactions”, Science 323, 234 (2009).

113) H.H. Fong, A. Papadimitratos, J. Hwang, A. Kahn, and G.G. Malliaras, “Hole injection in a model fluorene-triarylamine copolymer”, Adv. Funct. Mater. 19, 304 (2009).

114) G.G. Malliaras and C. Stanier, "New Year, New Innovations, More Great Science", J. Mater. Chem. 19, 15 (2009).

115) S. Takamatsu, M. Nikolou, D.A. Bernards, J. DeFranco, G.G. Malliaras, K. Matsumoto, and I. Shimoyama, “Flexible, organic light-pen input device with integrated display”, Sens. Actuators B:Chem. 135, 122 (2008).

116) A.A. Zakhidov, J.-K. Lee, H.H. Fong, J.A. DeFranco, M. Chatzichristidi, P. Taylor, C.K. Ober and G.G. Malliaras, “Hydrofluoroethers as orthogonal solvents for chemical processing of organic electronic materials”, Adv. Mater. 20, 3481 (2008).

117) Y.-F. Lim, S. Lee, D.J. Herman, M.T. Lloyd, G.G. Malliaras, and J.E. Anthony, “Spray-deposited poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate) top electrode for organic solar cells”, Appl. Phys. Lett. 93, 193301 (2008).

118) H.H. Fong, V. Pozdin, A. Amassian, G.G. Malliaras, D. Smilgies, M. He, S. Gasper, F. Zhang, M. Sorensen, “Tetrathienoacene copolymers as high mobility, soluble organic semiconductors”, J. Am. Chem. Soc. 130, 13202 (2008).

119) J.-K. Lee, M. Chatzichristidi, A. Zakhidov, P.G. Taylor, J.A. DeFranco, H.S. Hwang, H.H. Fong, A.B. Holmes, G.G. Malliaras, C.K. Ober, “Acid-sensitive semi-perfluoroalkyl resorcinarene: An imaging material for organic electronics”, J. Am. Chem. Soc. 130, 11564 (2008).

120) H.S. Hwang, A.A. Zakhidov, J.-K. Lee, X. André, J.A. DeFranco, H.H. Fong, A.B. Holmes, G.G. Malliaras, and C.K. Ober, “Dry photolithographic patterning process for organic electronic devices using supercritical carbon dioxide as a solvent”, J. Mater Chem. 18, 3087 (2008).

121) A. Brzezinski, J.-T. Lee, J.D. Slinker, G.G. Malliaras, P.V. Braun, and P. Wiltzius, “Enhanced emission from fcc fluorescent photonic crystals”, Phys. Rev. B 77, 233106 (2008).

122) S. Hong, A. Amassian, A.R. Woll, S. Bhargava, J.D. Ferguson, G.G. Malliaras, J.D. Brock, and J.R. Engstrom, “Real time monitoring of pentacene growth on SiO2 from a supersonic source”, Appl. Phys. Lett. 92, 253304 (2008).

123) M.T. Lloyd, Y.-F. Lim, and G.G. Malliaras, “Two-step exciton dissociation in poly(3-hexyl thiophene)/fullerene heterojunctions”, Appl. Phys. Lett. 92, 143308 (2008).

124) M. Nikolou, and G.G. Malliaras, “Applications of PEDOT:PSS transistors in chemical and biological sensors”, Chem. Rec. 8, 13 (2008).

125) G.G. Malliaras, J.A. De Franco, M.J. Jaquith, W.R. Silveira, Y.-W. Zhong, J.M. Moran-Mirabal, H.G. Craighead, H.D. Abruña, and J.A. Marohn, “Operating mechanism of light-emitting electrochemical cells – Authors’ response”, Nature Mater. 7, 168 (2008).

126) E. Zysman-Colman, J.D. Slinker, J.B. Parker, G.G. Malliaras, and S. Bernhard, “Improved turn-on times of light-emitting electrochemical cells”, Chem. Mater. 20, 388 (2008).

127) D.A. Bernards, D.J. Macaya, M. Nikolou, J.A. DeFranco, S. Takamatsu, and G.G. Malliaras, “Enzymatic sensing with organic electrochemical transistors”, J. Mater. Chem. 18, 116 (2008).

128) D.A. Bernards and G.G. Malliaras, “Steady-state and transient behavior of organic electrochemical transistors”, Adv. Funct. Mater. 17, 3538 (2008).

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129) J.D. Slinker, J.A. De Franco, M.J. Jaquith, W.R. Silveira, Y.-W. Zhong, J.M. Moran-Mirabal, H.G. Craighead, H.D. Abruña, J.A. Marohn, and G.G. Malliaras, “Direct measurement of the electric field distribution in a light-emitting electrochemical cell”, Nature Mater. 6, 894 (2007).

130) M.T. Lloyd, J.E. Anthony, and G.G. Malliaras, “Photovoltaics from soluble small molecules”, Mater. Today 10, 34 (2007).

131) D.J. Macaya, M. Nikolou, S. Takamatsu, J.T. Mabeck, R.M. Owens, G.G. Malliaras, “Simple glucose sensors with micromolar sensitivity based on organic electrochemical transistors”, Sens. Actuators B:Chem. 123, 374 (2007).

132) A. Papadimitratos, H.H. Fong, G.G. Malliaras, A. Yakimov, and A. Duggal, “Degradation of hole injection at the contact between a conducting polymer and a fluorine copolymer”, Appl. Phys. Lett. 91, 042116 (2007).

133) M.T. Lloyd, A.C. Mayer, S. Subramanian, D.A. Mourey, D.J. Herman, A.V. Bapat, J.E. Anthony, and G.G. Malliaras, “Efficient solution-processed photovoltaic cells based on anthradithiopene/fullerene blend”, J. Am. Chem. Soc. 129, 9144 (2007).

134) C.L. Chochos, S.P. Economopoulos, V. Deimede, V.G. Gregoriou, M.T. Lloyd, G.G. Malliaras, and J.K. Kallitsis, “Synthesis of a soluble n-type cyano substituted polythiopene derivative: A potential electron acceptor in polymeric solar cells”, J. Phys. Chem. C. 111, 10732 (2007).

135) J.D. Slinker, J. Rivnay, J.S. Moskowitz, J.B. Parker, S. Bernhard, H.D. Abruña, and G.G. Malliaras, “Electroluminescent devices from ionic transition metal complexes”, J. Mater Chem. 17, 2976 (2007).

136) P. Bhatnagar, A.D. Strickland, I. Kim, G.G. Malliaras, and C.A. Batt, “Integrated reactive ion etching to pattern cross-linked hydrophilic polymer structures for protein immobilization”, Appl. Phys. Lett. 90, 14 (2007).

137) D.R. Blasini, J. Rivnay, D.M. Smilgies, J.D. Slinker, S. Flores-Torres, H.D. Abruña, and G.G. Malliaras, “Observation of intermediate-range order in a nominally amorphous molecular semiconductor film”, J. Mater. Chem. 17, 1458 (2007).

138) J.M. Moran-Mirabal, J.D. Slinker, J.A. DeFranco, S.S. Verbridge, R. Ilic, S. Flores-Torres, H.D. Abruña, G.G. Malliaras, and H.G. Craighead, “Electrospun, light-emitting nanofibers”, Nano Lett. 7, 458 (2007).

139) J.D. Slinker, J.-S. Kim, S. Flores-Torres, Jared H. Delcamp, H.D. Abruña, R. H. Friend, and G.G. Malliaras, “In-situ identification of a quencher in an organic electroluminescent device”, J. Mater. Chem. 17, 76 (2007).

140) V. Ignatescu, J.-C.M. Hsu, A.C. Mayer, J.M. Blakely, and G.G. Malliaras, “Using atomic steps to induce texture in polycrystalline pentacene films”, Appl. Phys. Lett. 89, 253116 (2006).

141) S. Wo, B. Wang, H. Zhou, Y. Wang, J. Bessette, R.L. Headrick, A.C. Mayer, G.G. Malliaras, and A. Kazimirov, “Study of the interfacial water layer during pentacene monolayer deposition”, J. Appl. Phys. 100, 093504 (2006).

142) H.H. Fong, A. Papadimitratos, and G.G. Malliaras, “Non-dispersive hole transport in a polyfluorene copolymer with a mobility of 0.01 cm2/Vs”, Appl. Phys. Lett. 89, 172116 (2006).

143) M.T. Lloyd, A.C. Mayer, A. Tayi, A. Bowen, T. Kasen, D. Herman, J.E. Anthony, and G.G. Malliaras, “Solution processed pentacene derivatives for organic photovoltaics”, Org. Electr. 7, 243 (2006).

144) D.A. Bernards, S. Flores-Torres, H.D. Abruña, G.G. Malliaras, “Electroluminescence and photovoltaic response in ionic junctions”, Science 313, 1416 (2006).

145) A.C. Mayer, A. Kasimirov and G.G. Malliaras, “The dynamics of bimodal growth in pentacene thin films”, Phys. Rev. Lett. 97, 105503 (2006).

146) D.A. Bernards, G.G. Malliaras, G.E.S. Toombes, and S.M. Gruner, “Gating of an organic transistor through a bilayer membrane with ion channels”, Appl. Phys. Lett. 89, 053505 (2006).

147) L. Soltzberg, J.D. Slinker, S. Flores-Torres, D.A. Bernards, G.G. Malliaras, H.D. Abruña, J.S. Kim, R.H. Friend, M. Kaplan and V Goldberg, “Identification of a quenching species in ruthenium tris-bipyridine electroluminescent devices”, J. Am. Chem. Soc. 128, 7721 (2006).

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148) A.C. Mayer, R. Ruiz, H. Zhou, R.L. Headrick, A. Kasimirov and G.G. Malliaras, “Growth dynamics of pentacene thin films: Real-time synchrotron x-ray scattering study”, Phys. Rev. B 73, 205307 (2006).

149) S.V. Novikov, and G.G. Malliaras, “Energetic disorder at the metal/organic interface”, Phys. Rev. B 73, 033308 (2006).

150) J. D. Slinker, J. Rivnay, J.A. DeFranco, D.A. Bernards, A. Gorodetsky, S.T. Parker, M. Cox, R. Rohl, S. Flores-Torres, H.D. Abruña and G.G. Malliaras, “Direct 120V, 60Hz operation of an organic light emitting device”, J. Appl. Phys. 99, 074502 (2006).

151) J.A. DeFranco, B.S. Schmid, M. Lipson and G.G. Malliaras, “Patterning of organic electronic materials using photolithography”, Org. Electr. 7, 22 (2006).

152) S.V. Novikov and G.G. Malliaras, “Transversal and longitudinal diffusion in polar disordered organic materials”, Phys. Stat. Sol. (b) 243, 391 (2006).

153) S.V. Novikov and G.G. Malliaras, “Transport energy in disordered organic materials”, Phys. Stat. Sol. (b) 243, 387 (2006).

154) S.V. Novikov and G.G. Malliaras, “Roughness induced disorder at the metal/organic interface”, Phys. Rev. B 73, 033302 (2006).

155) J.T. Mabeck, and G.G. Malliaras, “Chemical and biological sensors based on organic thin-film transistors”, Anal. Bioanal. Chem. 384, 343 (2006).

156) A.R. Hosseini, C.Y. Koh, J.D. Slinker, S. Flores-Torres, H.D. Abruña, and G.G. Malliaras, “Addition of a phosphorescent dopant in electroluminescent devices from ionic transition metal complexes”, Chem. Mater. 17, 6114 (2005).

157) M.S. Lowry, J.I. Goldsmith, J.D. Slinker, R. Rohl, R.A. Pascal Jr, G.G. Malliaras, and S. Bernhard, “Single-layer electroluminescent devices and photoinduced hydrogen production from an ionic iridium(III) complex”, Chem. Mater. 17, 5712 (2005).

158) R. Ruiz, A. Papadimitratos, A.C. Mayer, and G.G. Malliaras, “Thickness dependence of mobility in pentacene transistors”, Adv. Mater. 17, 1795 (2005).

159) C.R. Swartz, S.R. Parkin, J.E. Bullock, J.E. Anthony, A.C. Mayer, and G.G. Malliaras, “Synthesis and characterization of electron deficient pentacenes”, Org. Lett. 7, 3163 (2005).

160) J.T. Mabeck, J.A. DeFranco, D.A. Bernards, G.G. Malliaras, S. Hocdé, and C.J. Chase, “Microfluidic gating of an organic electrochemical transistor”, Appl. Phys. Lett. 87, 13503 (2005).

161) S.T. Parker, J.D. Slinker, M. Lowry, M.P. Cox, S. Bernhard, and G.G. Malliaras, “Improved turn-on times of iridium electroluminescent devices by use of ionic liquids”, Chem. Mater. 17, 3187 (2005).

162) G.G. Malliaras and R.H. Friend, “An organic electronics primer”, Physics Today 58, 53 (2005). 163) J.D. Slinker, C.Y. Koh, G.G. Malliaras, M.S. Lowry, and S. Bernhard, “Green electroluminescence

from an ionic iridium complex”, Appl. Phys. Lett. 86, 173506 (2005). 164) A. Hosseini, M.H. Wong, Y. Shen, and G.G. Malliaras, “Charge injection in doped organic

semiconductors”, J. Appl. Phys. 97, 23705 (2005). 165) A.C. Mayer, M.T. Lloyd, D.J. Herman, T.G. Kasen, and G.G. Malliaras, “Post-fabrication

annealing of pentacene based photovoltaic cells”, Appl. Phys. Lett. 85, 6272 (2004). 166) R. Ruiz, A.C. Mayer, G.G. Malliaras, B. Nickel, G. Scoles, A. Kazimirov, H. Kim, R.L. Headrick,

and Z. Islam, “Structure of pentacene thin films”, Appl. Phys. Lett. 85, 4926 (2004). 167) R. Ruiz, D. Choudhary, B. Nickel, T. Toccoli, K.-C. Chang, A.C. Mayer, P. Clancy, J.M. Blakely,

R.L. Headrick, S. Iannotta, and G.G. Malliaras, “Pentacene film growth”, Chem. Mater. 16, 4497 (2004).

168) A.C. Mayer, R. Ruiz, R.L. Headrick, A. Kazimirov, and G.G. Malliaras, “Early stages of pentacene growth on SiO2”, Org. Electr. 5, 257 (2004).

169) S.R. Scully, M.T. Lloyd, R. Herrera, E.P. Giannelis, and G.G. Malliaras, “Dye-sensitized solar cells employing a highly conductive and mechanically robust nanocomposite gel-electrolyte”, Synth. Metals 144, 291 (2004).

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170) Z.T. Zhu, J.T. Mason, C. Zhu, N.C. Cady, C.A. Batt, and G.G. Malliaras, “A simple poly(3,4-ethylene dioxythiophene)/poly(styrene sulfonic acid) transistor for glucose sensing at neutral pH”, Chem. Comm. 13, 1556 (2004).

171) D.A. Bernards, J.D. Slinker, G.G. Malliaras, S. Flores-Torres, and H.D. Abruña, “Cascaded light emitting devices based on ruthenium complexes”, Appl. Phys. Lett. 84, 4980 (2004).

172) D.A. Bernards, T. Biegala, Z.A. Samuels, J.D. Slinker, G.G. Malliaras, S. Flores-Torres, H.D. Abruña, and J.A. Rogers, “Organic light-emitting devices with laminated top contacts”, Appl. Phys. Lett. 84, 3675 (2004).

173) J.D. Slinker, G.G. Malliaras, S. Flores-Torres, H.D. Abruña, W. Chunwachirasiri and M.J. Winokur, “Temperature dependence of tris(2,2’-bipyridine)ruthenium (II) device characteristics”, J. Appl. Phys. 95, 4381 (2004).

174) J.D. Slinker, A.A. Gorodetsky, M.S. Lowry, J. Wang, S. Parker, R. Rohl, S. Bernhard and G.G. Malliaras, “Efficient yellow electroluminescence from a single layer of a cyclo-metalated iridium complex”, J. Am. Chem. Soc. 126, 2763 (2004).

175) A. Gorodetsky, S. Parker, J. Slinker, D. Bernards, M.H. Wong, S. Flores-Torres, H.D. Abruña, and G.G. Malliaras, “Contact issues in electroluminescent devices from transition metal complexes”, Appl. Phys. Lett. 84, 807 (2004).

176) Y. Shen, A. Hosseini, M.H. Wong, and G.G. Malliaras, “How to make ohmic contacts to organic semiconductors”, ChemPhysChem. 5, 16 (2004).

177) Y. Zhang, J.T. Petta, D. Ralph, and G.G. Malliaras, “30 nm channel length pentacene transistors”, Adv. Mater. 15, 1632 (2003).

178) J.A. Barron, S. Bernhard, P.L. Houston, H.D. Abruña, J. Ruglovsky, and G.G. Malliaras “Electroluminescence in ruthenium(II) dendrimers”, J. Phys. Chem. 107, 8130 (2003).

179) J. Slinker, D. Bernards, P.L. Houston, H.D. Abruña, S. Bernhard and G.G. Malliaras, “Solid state electroluminescent devices based on transition metal complexes”, Chem. Comm. 19, 2392 (2003).

180) Y. Shen, K. Diest, M.H. Wong, B.R. Hsieh, D.H. Dunlap, and G.G. Malliaras, “Charge transport in doped organic semiconductors”, Phys. Rev. B. 68, 81204(R) (2003).

181) K.W. Lee, J. Slinker, A.A. Gorodetsky, S. Flores-Torres, H.D. Abruña, P.L. Houston, and G.G. Malliaras, “Photophysical properties of tris(bipyridyl)ruthenium(II) thin films and devices”, PCCP 5, 2706 (2003).

182) Z.T. Zhu, J.T. Mason, R. Dieckmann, and G.G. Malliaras, “Humidity sensors based on pentacene thin film transistors”, Appl. Phys. Lett. 81, 4643 (2002).

183) S. Bernhard, J.A. Barron, P.L. Houston, H.D. Abruña, J. Ruglovsky, X. Gao, and G.G. Malliaras, “Electroluminescence in ruthenium(II) complexes”, J. Am. Chem. Soc. 124, 13624 (2002).

184) S. Bernhard, X. Gao, G.G. Malliaras, and H.D. Abruña, “Efficient electroluminescent devices based on a chelated osmium(II) complex”, Adv. Mater. 14, 433 (2002).

185) C.H. Lee, S.W. Kim, F. Bloom, G.G. Malliaras, and S.Y. Oh, “Improvement in the efficiency of organic light emitting diodes consisting of copolymer having hole and electron transporting moieties and CsF as an injection material” Mol. Cryst. Liq. Cryst. 377, 77 (2002).

186) M.W. Klein, D.H. Dunlap, and G.G. Malliaras, “Space charge limited current in the single electron regime”, Phys. Rev. B. 64, 195332 (2001).

187) G.G. Malliaras, Y. Shen, D.H. Dunlap, H. Murata, and Z.H. Kafafi, “Non-dispersive electron transport in Alq3”, Appl. Phys. Lett. 79, 2582 (2001).

188) M.L. Swiggers, G. Xia, J.D. Slinker, A.A. Gorodetsky, G.G. Malliaras, R.L. Headrick, B.T. Weslowski, R.N. Shashidhar, and C.S. Dulcey, “Orientation of pentacene films using surface alignment layers and its influence on thin film transistor characteristics”, Appl. Phys. Lett. 79, 1300 (2001).

189) Y. Shen, D.B. Jacobs, G.G. Malliaras, G. Koley, M.G. Spencer, and A. Ioannidis, “Modification of ITO for improved hole injection in organic light emitting diodes”, Adv. Mater. 13, 1234 (2001).

190) H. Murata, G.G. Malliaras, M. Uchida, Y. Shen, and Z.H. Kafafi, “Non-dispersive and air-stable electron transport in an amorphous organic semiconductor”, Chem. Phys. Lett. 339, 161 (2001).

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191) Y. Shen, M.W. Klein, D.B. Jacobs, J.C. Scott, and G.G. Malliaras, “Mobility-dependent charge injection into an organic semiconductor”, Phys. Rev. Lett. 86, 3867 (2001).

192) D.B. Jacobs, Y. Shen, and G.G. Malliaras, “Characterization and improvement of the contact between Indium Tin Oxide and triphenyl diamine doped polycarbonate”, J. Photochem. Photobiol. A: Chem. 144, 53 (2001).

193) P. Piromreun, H. Oh, Y. Shen, G.G. Malliaras, J.C. Scott, and P.J. Brock, “The role of CsF on electron injection into a conjugated polymer”, Appl. Phys. Lett. 77, 2403 (2000).

194) J.C. Scott, P.J. Brock, J.R. Salem, S. Ramos, G.G. Malliaras, S.A. Carter, and L. Bozano, “Charge transport processes in organic light emitting diodes”, Synth. Met. 111-112, 289 (2000).

195) J.C. Scott, S. Ramos, and G.G. Malliaras, “Transient space charge limited current measurements of mobility in a luminescent polymer”, J. Imag. Sci. Technol. 43, 234 (1999).

196) G.G. Malliaras, and J.C. Scott, “Numerical simulations of the electrical characteristics and the efficiency of single layer organic light emitting diodes”, J. Appl. Phys. 85, 7426 (1999).

197) J.C. Scott, G.G Malliaras, W.D. Chen, J.-C. Breach, J.R. Salem, P.J. Brock, S. Sachs, and C.E.D. Chidsey, “Hole limited recombination in MEH-PPV diodes”, Appl. Phys. Lett. 74, 1510 (1999).

198) L. Bozano, S.A. Carter, J.C. Scott, G.G. Malliaras, and P.J. Brock, “Temperature and field dependent electron and hole mobilities in polymer light emitting diodes”, Appl. Phys. Lett. 74, 1132 (1999).

199) J.C. Scott, and G.G. Malliaras, “Charge injection and recombination at the metal-organic interface”, Chem. Phys. Lett. 299, 115 (1999).

200) G.G. Malliaras, J.R. Salem, P.J. Brock, and J.C. Scott, “Electrical characteristics and efficiency of organic light emitting diodes”, Phys. Rev. B. 58, R13411 (1998).

201) G.G. Malliaras, J.R. Salem, P.J. Brock, and J.C. Scott, “Photovoltaic measurements of the built-in potential in organic light emitting diodes”, J. Appl. Phys. 84, 1583 (1998).

202) G.G. Malliaras, and J.C. Scott, “The roles of injection and mobility in organic light emitting diodes”, J. Appl. Phys. 83, 5399 (1998).

203) A. Hilberer, M. Moroni, R.E. Gill, H.J. Brouwer, V.V. Krasnikov, T.A. Pham, G. G. Malliaras, S. Veenstra, M.P.L Werts, P.F. van Hutten, and G. Hadziioannou, “Photonic materials for electroluminescent, laser and photovoltaic devices”, Macromolecular Symposia 125, 99 (1998).

204) G. Hadziioannou, P.F. vanHutten, and G.G. Malliaras, “Photonic polymers for the devices of the 21st century”, Macromolecular Symposia 121, 27 (1997).

205) H.J. Bolink, C.Arts, V.V. Krasnikov, G.G. Malliaras, and G. Hadziioannou, “Novel bifunctional molecule for photorefractive materials”, Chem. Mater. 9, 1407 (1997).

206) H.J. Bolink, V.V. Krasnikov, G.G. Malliaras, and G. Hadziioannou, “Effect of plasticization on the performance of photorefractive polymers”, J. Phys. Chem. 100, 16356 (1996).

207) S.C. Veenstra, G.G. Malliaras, H.J. Brouwer, F.J. Esselink, V.V. Krasnikov, P.F. van Hutten, J. Wildeman, H.T. Jonkman, G.A. Sawatzky, and G. Hadziioannou, “Sexithiophene-C60 blends as model systems for photovoltaic devices”, Synth. Met. 84, 971 (1996).

208) G.G. Malliaras, H. Angerman, V.V. Krasnikov, G. ten Brinke, and G. Hadziioannou, “The influence of disorder on the space charge field formation in photorefractive polymers”, J. Phys. D: Appl. Phys. 29, 2045 (1996).

209) G.G. Malliaras, V.V. Krasnikov, H.J. Bolink, and G. Hadziioannou, “Photorefractivity in poly(N-vinylcarbazole) based composites”, Pure Appl. Optics 5, 631 (1996).

210) G.G. Malliaras, V.V. Krasnikov, H.J. Bolink, and G. Hadziioannou, “Holographic time-of-flight measurement of the hole drift mobility in a photorefractive polymer”, Phys. Rev. B 52, R14324 (1995).

211) G.G. Malliaras, V.V. Krasnikov, H.J. Bolink, and G. Hadziioannou, “Transient behavior of photorefractive gratings in a polymer”, Appl. Phys. Lett. 67, 455 (1995).

212) G.G. Malliaras, V.V. Krasnikov, H.J. Bolink, and G. Hadziioannou, “Control of charge trapping in photorefractive polymers”, Appl. Phys. Lett. 66, 1038 (1995).

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213) D. Morichère, G.G. Malliaras, V.V. Krasnikov, H.J. Bolink, and G. Hadziioannou, “Photorefractive polymers”, J. Chim. Phys. 92, 927 (1995) (in French).

214) A. Hilberer, R.E. Gill, J.K. Herrema, J. Wildeman, G.G. Malliaras, and G. Hadziioannou, “Conjugated copolymers for light emitting diodes”, J. Chim. Phys. 92, 931 (1995) (in French).

215) H.J. Bolink, V.V. Krasnikov, G.G. Malliaras, and G. Hadziioannou, “The role of absorbing nonlinear optical chromophores in photorefractive polymers”, Adv. Mater. 6, 574 (1994).

216) G.G. Malliaras, V.V. Krasnikov, H.J. Bolink, and G. Hadziioannou, “Photorefractive polymer composite with net gain and subsecond response at 633 nm”, Appl. Phys. Lett. 65, 262 (1994).

217) R.E. Gill, G.G. Malliaras, J. Wildeman, and G. Hadziioannou, “Tuning of photo- and electroluminescence in alkylated polythiophenes with well-defined regioregularity”, Adv. Mater. 6, 132 (1994).

218) G.G. Malliaras, J.K. Herrema, J. Wildeman, R.H. Wieringa, R.E. Gill, S.S. Lampoura, and G. Hadziioannou, “Tuning of photo- and electroluminescence in multiblock copolymers of poly[(silanylene)thiophene]s via exciton confinement”, Adv. Mater. 5, 721 (1993).

219) G.G. Malliaras, H.A. Wierenga, and Th.H.M. Rasing, “Study of the step structure of vicinal Si(110) surfaces using optical second harmonic generation”, Surf. Sci. 287/288, 703 (1993).

Contributions in Books

1) C. Bernard, D.T. Simon, and G.G. Malliaras, “Organic bioelectronics for interfacing with the brain”, in The WSPC Reference on Organic Electronics: Organic Semiconductors, J.-. Bredas and S.R. Marder, Editors, World Scientific (2016).

2) M. Sessolo, M. Ramuz, G.G. Malliaras, and R.M. Owens, “Cell array biosensors” in Handbook of Bioelectronics: Directly Interfacing Electronics and Biological Systems, S Carrara and K. Iniewski, Editors, Cambridge University Press (2015).

3) D. Khodagholy, G.G. Malliaras and R.M. Owens, “Polymer-Based Sensors” in Comprehensive Polymer Science, 2nd Edition, K. Matyjaszewski and M. Möller, Editors, Elsevier (2012).

4) S.Y. Yang, F. Cicoira, N. Shim, and G.G. Malliaras, “Organic electrochemical transistors for sensor applications” in Iontronics: Ionic Carriers in Organic Electronic Materials and Devices, J. Leger, M. Berggren, and S. Carter, Editors, CRC Press (2011).

5) J. DeFranco, A. Zakhidov, J.-K. Lee, P. Taylor, H.H. Fong, M. Chatzichristidi, H.S. Hwang, C.K. Ober and G.G. Malliaras, “Photolithographic Patterning of Organic Electronic Materials” in Functional Supramolecular Architectures: for Organic Electronics and Nanotechnology, P. Samori and F. Cacialli, Editors, Wiley-VCH (2010).

6) F. Cicoira, D.A. Bernards and G.G. Malliaras, “Conducting polymer transistors for sensor applications”, in Nano and Microsensors for Chemical and Biological Terrorism Surveillance, J.B.-H. Tok, Editor, RSC (2008).

7) A.C. Mayer, J.M. Blakely and G.G. Malliaras, “Film growth mechanisms: Vacuum evaporated thin films”, in Organic Field Effect Transistors, J. Locklin, and Z. Bao, Editors., CRC Press (2007).

8) G.G. Malliaras, “Photovoltaic devices from organic semiconductors”, in The Encyclopedia of Materials: Science and Technology, K.H.J. Buschow et. al., Editors., Pergamon (2001).

9) J.C. Scott, and G.G. Malliaras, “The chemistry, physics and engineering of organic light emitting diodes”, in Semiconducting Polymers, G. Hadziioannou, and P.F. van Hutten, Editors., Wiley-VCH (1999).

Thesis (published as a book)

1) G.G. Malliaras, “Photorefractivity in polymers”, Tziolas Technical Books, Thessaloniki, Greece (1995). ISBN 90-367-0569-x. Available on line at: http://dissertations.ub.rug.nl/faculties/science/1995/g.malliaras/

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Edited Work

1) “Organic Semiconductors in Sensors and Bioelectronics II”, Eds. R. Shinar and G.G. Malliaras, Proceedings of SPIE, volume 7418 (2009).

2) “Organic Semiconductors in Sensor Applications”, Eds. D.A. Bernards, R.M. Owens, and G.G. Malliaras, Springer (2008).

3) “Organic-based Chemical and Biological Sensors”, Eds. R. Shinar and G.G. Malliaras, Proceedings of SPIE, volume 6659 (2007).

4) “Semiconducting Polymers”, Eds. G. Hadziioannou, and G.G. Malliaras, WILEY-VCH (2006). 5) “Organic devices”, Eds. T. Tsutsui, H. Murata, M. Hiramoto, H. Naito, G.G. Malliaras, W. Riess,

and J.-J. Kim, special issue of the Japanese Journal of Applied Physics (2004), vol. 44, issue 5a (2005).

6) “Organic semiconductors and devices”, Ed. G.G. Malliaras, special issue of the Journal of Polymer Science: Polymer Physics, vol. 41, issue 21 (2003).

7) “Polymer/metal interfaces and defect mediated phenomena in ordered polymers”, Eds. E.D. Manias, and G.G. Malliaras, MRS Symposium Proceedings 734 (2002).

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LIST OF PATENTS

1) Method of patterning a bioresorbable material; WO 2015075553 A1 2) Method of patterning base layer; US 9217926 B2 3) Electrospun light-emitting fibers; US 8541940 B2 4) Orthogonal processing of organic materials used in electronic and electrical devices; US8846301

B2 5) Methods of making patterned structures of fluorine-containing polymeric materials and fluorine-

containing polymers; US8809111 B2 6) Cascaded light emitting devices based on mixed conductor electroluminescence; US 8063556 B2 7) Mobility engineered electroluminescent devices; US 8026512 B2

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LIST OF INVITED PRESENTATIONS & SEMINARS

1) “Organic electronics for interfacing with the brain”, ZING conference on organic electronics, Sept. 22-25, 2016, Dubrovnik, Croatia.

2) “Organic electronics for interfacing with the brain”, Workshop of Dynamical Phenomena at Surfaces, Sept. 19-21, 2016, Milan, Italy.

3) “Organic electronics for interfacing with the brain”, Asilomar Bioelectronics Symposium, Sept. 4-8, 2016, Pacific Grove, CA.

4) “Organic bioelectronics”, Corning Research, July 21, 2016, Corning, NY. 5) “Organic electronics for interfacing with the brain”, 3rd annual Blavatnik Science Symposium, NY

Academy of Sciences, July 18-19, 2016, NY, NY. 6) “Organic electronics for interfacing with the brain”, International Conference on the Science and

Technology of Synthetic Metals, June 26 - July 1, 2016, Guangzhou, China. 7) “Organic electronics for interfacing with the brain”, Journées NeuroSTIC, June 23-24, 2016,

Grenoble, France. 8) “Organic electronics for interfacing with the brain”, Annual Lecture of the Center for Plastic

Electronics, Imperial College London, June 16, 2016, London, UK. 9) “Organic electronics for interfacing with the brain”, Symposium on Bioelectrochemistry and

more”, June 13-14, 2016, Wiener Neustadt, Austria. 10) “Organic electronics for interfacing with the brain”, Materials Science Department, University of

Manchester, June 3, 2016, Manchester, UK. 11) “Organic bioelectronics”, Workshop of Organic Electronics and Photovoltaics, May 22-25, 2016,

Porquerolles, France. 12) “Organic electronics for interfacing with the brain”, Institute of Nanoscience of Lyon (INL), May

12, 2016, Lyon, France. 13) “Organic electronics for human interface Sensors”, SPIE Defense and Commercial Sensing, April

17-21, 2016, Baltimore, MA. 14) “Interfacing with the brain using organic electronics”, Department of Electronic Engineering, TEI

of Crete, April 13, 2016, Chania, Greece. 15) “Applications of organic electronics to biomedical devices”, LOPEC, April 5-7, 2016, Munich,

Germany. 16) “Interfacing with the brain using organic electronics”, Joint Chemistry/Physics Department

Seminar, University of St. Andrews, March 23, 2016, St. Andrews, UK. 17) “Interfacing with the brain using organic electronics”, Biomedical Engineering Department,

Imperial College London, Feb.10, 2016, London, UK. 18) “Interfacing with the brain using organic electronics”, ARCSIS e-Health Meeting, Jan. 29, 2016,

Gardanne, France. 19) “Interfacing with the brain using organic electronics”, Electrical Engineering, University of

Cambridge, Jan. 15, 2016, Cambridge, UK. 20) “Interfacing with the brain using organic electronics”, Annual GDR multielectrodes meeting, Jan.

6-8, 2016, Autrans, France. 21) “Implantable organic electronics”, Pacifichem, Dec. 15-16, 2015, Honolulu, HI. 22) “Implantable organic electronics”, MRS Fall Meeting, Nov. 3- Dec. 3, 2015, Boston, MA. 23) “Interfacing with the brain using organic electronics”, Physics Department, Oxford University,

Nov. 27, 2015, Oxford, UK. 24) “Interfacing with the brain using organic electronics”, Chemistry Department, Dublin City

University, Oct. 29, 2015, Dublin, Ireland. 25) Plenary talk: “Interfacing with the brain using organic electronics”, Brazilian Materials Research

Society Meeting, Sept. 27- Oct. 1, 2015, Rio de Janeiro, Brazil.

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26) “Organic Bioelectronics”, Conference on Materials for Organic Photovoltaics, University of Patras, Sept. 18 2015, Patras, Greece.

27) Plenary talk: “Organic Electronics for Interfacing with the Brain”, SPIE Optics and Photonics, August 9-14, 2015, San Diego, CA.

28) “Organic Electronics for Interfacing with the Brain”, Department of Electrical Engineering, University of California San Diego, Aug. 10, 2015, San Diego, CA.

29) “Organic Electronics for Interfacing with the Brain”, 2nd IEEE EMBS international summer school of neural engineering, July 13-19, 2015, Shanghai, China.

30) “Emerging technologies for stimulating with the brain”, 2nd IEEE EMBS international summer school of neural engineering, July 13-19, 2015, Shanghai, China.

31) Plenary talk: “Organic Bioelectronics”, 10th International Summer School “N&N, OE & Nanomedicine”, July 2-9, 2015, Thessaloniki, Greece.

32) “Organic Electronics for Interfacing with the Brain”, TechConnect World conference, June 14-17, 2015, Washington DC.

33) “Bioelectronics”, Summer School on Biology for Physicists, May 25-29, 2015, Porquerolles, France.

34) “Organic Electronics for Interfacing with the Brain”, CMOS Emerging Technologies Research conference, May 20-22, 2015, Vancouver, Canada.

35) “Organic Electronics for Interfacing with the Brain”, 2nd IEEE EMBS Workshop on Advanced Technologies for BRAIN Initiatives, April 21, Montpellier, France.

36) “Organic Electronics for Interfacing with the Brain”, U.S. Air Force Research Laboratory (AFRL), April 15, Dayton, OH.

37) “Organic Electronics for Interfacing with the Brain”, Chemical Engineering Department, University of Massachusetts, Amherst, April 14, Amherst, MA.

38) “Organic Electronics for Interfacing with the Brain”, Materials Research Society, April 6-10, 2015, San Francisco, CA.

39) “Organic Electronics for Interfacing with the Brain”, 2nd International Winterschool on Bioelectronics, Feb. 28- March 7, 2015, Kirchberg in Tirol, Austria.

40) “Organic Electronics for Interfacing with the Brain”, 10th Spanish Conference on Electron Devices, Feb. 11-13, 2015, Aranjuez, Spain

41) “Organic Electronics for Interfacing with the Brain”, InnOLAE 2015, Feb. 3-4, 2015, Cambridge, UK.

42) “Conducting Polymer Devices for BioMEMS applications”, IEDM2014, Dec. 15-17, 2014, San Francisco, CA.

43) “Conducting Polymer Devices for in vivo Electrophysiology” Materials Research Society, Nov. 30-Dec. 5, 2014, Boston, MA.

44) “Organic Electronics for Interfacing with the Brain”, Joint meeting of the French Physical Society, the French Optical Society and the French Network C'Nano, 16 September, 2014, Paris, France.

45) Plenary talk: “Interfacing with the Brain with Organic Electronics”, International Conference on Molecular Electronics, 24-29 August, 2014, Strasburg, France.

46) “Organic Bioelectronics”, Transparent Electronics Workshop, 7-20 July 2014, Chania, Greece. 47) “Organic Bioelectronics”, 8th International Summer School “N&N, OE & Nanomedicine”, 4-11

July 2014, Thessaloniki, Greece. 48) Keynote talk: “Conducting Polymer Devices for Neural Interfacing”, Meeting on Micro Electrode

Arrays, 1-4 June, 2014, Reutlingen, Germany 49) “Interfacing with the Brain with Organic Electronics”, International Conference of Science and

Technology of Synthetic Metals, 30 June – 5 July, 2014, Turku, Finland. 50) “Conducting Polymer Devices for Neural Interfacing”, Workshop on Surfaces, Interfaces and

Functionalization Processes in Organic Compounds and Applications, 25-27 June, 2014, Trieste, Italy.

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51) “Interfacing with the Brain with Organic Electronics”, Workshop on Organic Bioelectronics, 9 June, 2014, Modena, Italy.

52) “Organic Bioelectronics”, Physics Department, University of Ioannina, 3 June 2014, Ioannina, Greece.

53) “Interfacing with the Brain with Organic Electronics”, Gordon Research Conference on Electronic Processes in Organic Materials, 5-10 May, 2014, Barga, Italy.

54) “Conducting Polymer Devices for in vivo Electrophysiology” Materials Research Society, 21-25 April, 2014, San Francisco, CA.

55) “Organic Bioelectronics”, Physics Department, Aristotle University of Thessaloniki, 19 March 2014, Thessaloniki, Greece.

56) “Organic Bioelectronics”, Faculty of Engineering and Physical Sciences, Sabanci University, 12 March 2014, Istanbul, Turkey.

57) “Organic Bioelectronics”, CEMS International Workshop on Supramolecular Chemistry and Functional Materials, 15-17 Dec. 2013 Tokyo, Japan.

58) “Conducting Polymer Devices for Neural Interfacing”, 3rd International Conference on Medical Bionics, 17- 20 Nov. 2013, Phillip Island, Australia.

59) “Electrochemical transistors for neuroscience applications”, 4th Asia-Pacific Symposium on Nanobionics, 13-15 Nov. 2013, Melbourne, Australia.

60) “Organic Bioelectronics”, International Colloquium on Flexible Electronics, King Abdullah University of Science and Technology, 2-5 Nov. 2013, Thuwal, Saudi Arabia.

61) “Organic Bioelectronics”, 1st ET4Health Workshop on protein electron transfer, 39-30 Oct. 2013, Modena, Italy.

62) “Organic Bioelectronics”, Cavendish Laboratory, University of Cambridge, 22 Oct. 2013, Cambridge, UK.

63) “Organic Bioelectronics”, Pi-Conjugated Materials and Nanostructures (MNPC), 7-11 October 2013, Annecy, France.

64) “Organic Bioelectronics”, Physics and Materials Study Laboratory, ESPCI ParisTech, 3 October 2013, Paris, France.

65) “Organic Bioelectronics”, XXIX Panhellenic Conference on Solid-State Physics and Materials Science, 22-25 September 2013, Athens, Greece.

66) “Organic Bioelectronics”, 3rd CNRS Summer School “Biology for Physicists”, 8-13 September 2013, Porquerolles, France.

67) “Conducting Polymer Devices for Neural Interfacing”, CMOS Emerging Technologies Symposium, 17-19 July 2013, Whistler, BC, Canada.

68) “Organic bioelectronics”, 7th International Summer School “N&N, OE & Nanomedicine” (ISSON13), 6-13 July 2013, Thessaloniki, Greece.

69) “Conducting Polymer Devices for Neural Interfacing”, Nanotexnology 2013, 6-13 July 2013, Thessaloniki, Greece.

70) “Organic electronics and the interface with life sciences”, 3nd Summer School “Electronic Materials at the Interface with Biology”, 10-14 June 2013, Porquerolles, France.

71) Plenary talk: “Organic Bioelectronics”, 11th International Symposium on Functional π-electron systems (Fπ-11), 2-7 June 2013, Arcachon, France

72) “Organic Bioelectronics”, Organic Electronics Summer School, 29 May – 1 June 2013, Biarritz, France.

73) “Organic Bioelectronics”, XXI Congress of the Italian Association of Science and Technology, 15-17 May 2013, Catania, Italy.

74) “Organic Bioelectronics”, CPE Summer School on Organic Electronics, 22-16 April 2013, Barga, Italy.

75) “Organic Bioelectronics”, Bruno Kessler Foundation, 22 April 2013, Trento, Italy. 76) “Conducting polymer devices for neural interfacing”, Chemistry Department, University of

Modena, 18 April 2013, Modena, Italy.

24

77) “Organic Bioelectronics”, Physics Department, University of Bologna, 15 April 2013, Bologna, Italy.

78) “Control of Cell Adhesion Using Conducting Polymers”, Scientific days of the University of South Var – Toulon, 9-10 April 2013, Toulon, France.

79) “Fundamental processes in organic bioelectronics”, Materials Research Society, 1-5 April 2013, San Francisco, CA.

80) “Conducting polymer devices for neural interfacing”, Materials Research Society, 1-5 April 2013, San Francisco, CA.

81) “Organic Bioelectronics”, Rencontres Electronique Imprimée, 27 March 2013, Paris, France. 82) “Organic Bioelectronics”, EU-Taiwan Conference, 11-12 March 2013, Taipei, Taiwan. 83) Plenary talk: “Conducting polymer transistors for biological applications”, 9th International

Conference on Thin-Film Transistors (ITC2013), 1-2 March 2013, Tokyo, Japan. 84) “Organic Bioelectronics”, Observatory of Micro- and Nanotechnologies, 5 Feb. 2013, Paris,

France. 85) “Organic Bioelectronics: Status & Perspectives for Commercialization”, 2nd Workshop on the

Development of Organic Electronics Industry in Greece, 19 Nov. 2012, Thessaloniki, Greece. 86) “Conducting polymer devices for neural interfacing”, Center for Neuroprosthetics, Ecole

Polytechnique Federale de Lausanne, 12 Nov. 2012, Lausanne, Switzerland. 87) “Organic Bioelectronics”, IV the European School in Molecular Nanoscience, 23-28 October 2012,

Cuenca, Spain. 88) “Conducting polymer devices for neural interfacing”, Plastic Electronics 2012 Conference &

Exhibition, 9-11 Oct. 2012, Dresden, Germany 89) “Organic bioelectronics”, Conference on Organic Electronics in Life Sciences, University of

Bordeaux, 14 Sept. 2012, Bordeaux, France. 90) “Conducting polymers at the interface with life sciences”, Gordon Research Conference on

Polymer Physics, 22-27 July 2012, Mt. Holyoke, MA 91) “Organic electronics at the interface with life sciences”, International Conference on Synthetic

Metals, 8-13 July 2012, Altanta, GA 92) “Organic bioelectronics”, 6th International Summer School "Organic Electronics & Nanomedicine"

30 June - 7 July, 2012, Thessaloniki, Greece. 93) Plenary talk: “Organic electronics at the interface with life sciences”, Nanotexnology 2012, 30

June - 7 July 2012, Thessaloniki, Greece. 94) “Organic electronics at the interface with life sciences”, Institute for Electronics, Microelectronics

and Nanotechnology, CNRS, 25 June 2012, Lille, France. 95) “Conducting polymer devices for neural interfacing”, 6th European Summer School of

Neuroengineering “Massimo Grattarola”, 11-15 June 2012, Genoa, Italy. 96) “Organic electronics and the interface with life sciences”, 2nd Summer School “Electronic Materials

at the Interface with Biology”, 8-11 June 2012, Porquerolles, France. 97) “Conducting polymer devices for neural interfacing”, Organic Bioelectronics 2012 Spring meeting,

28-29 May 2012, Gnesta, Sweden. 98) Plenary talk: “Organic electronics at the interface with life sciences”, European Materials

Research Society, 14-18 May 2012, Strasbourg, France. 99) “Organic bioelectronic devices on plastic substrates”, European Materials Research Society, 14-18

May 2012, Strasbourg, France. 100) “Commercialization of organic bioelectronics”, Workshop on Commercializing Organic

Electronics in Greece, 27 April 2012, Thessaloniki, Greece. 101) “Organic bioelectronic devices on plastic substrates”, Materials Research Society, 8-12 April 2012,

San Francisco, CA. 102) “Conducting polymer devices for neural interfacing”, Materials Research Society, 8-12 April 2012,

San Francisco, CA.

25

103) “Organic bioelectronics”, Laboratory of Condensed Mater Physics, Ecole Polytechnique, 5 April 2012, Palaiseau, France.

104) “Organic electronics at the interface with life sciences”, Institute of Materials for Electronics and Magnetism, CNR, 30 March 2012, Parma, Italy

105) “Organic electronics at the interface with life sciences”, Intelligent Polymer Research Institute, University of Wollongong, 23 March 2012, Wollongong, Australia

106) “Organic electronics at the interface with life sciences”, Interdisciplinary Center for Nanosciences of Marseille CINAM, CNRS, 2 February 2012, Marseille, France

107) “Organic bioelectronics”, Workshop on Material Science and Technology, University of Bari, 18 January 2012, Bari, Italy.

108) “Organic electronics at the interface with life sciences”, Swiss E-print, 1-2 December, 2011, Basel, Switzerland.

109) “Organic electronics at the interface with life sciences”, Institute of Materials for Electronics and Magnetism, University of Trento, 17 November, 2011, Trento, Italy.

110) “Organic electronics at the interface with life sciences”, Journées du GDR Electronique Organique, 14-15 November, 2011, Grenoble, France.

111) “Organic electronics at the interface with life sciences”, National Centre for Sensor Research, Dublin City University, 3 November, 2011, Dublin, Ireland.

112) “Organic electronics at the interface with life sciences”, IEEE sensors conference, 28-31 February, 2011, Limerick, Ireland.

113) “Organic electronics at the interface with life sciences”, Workshop on future challenges of advanced functional polymers for emerging technologies, 21-22 October, 2011, Bordeaux, France.

114) “Organic electronics at the interface with life sciences”, 3rd German-French summer school on Electrochemistry and Nanotechnologies, 18-23 September, 2011, Porquerolles, France.

115) “Organic electronics at the interface with life sciences”, Summer school at the interface between electronics and biology, 6-10 June, 2011, Porquerolles, France.

116) “Organic electronics at the interface with life sciences”, 11th European Conference of Molecular Electronics, 7-11 September, 2011, Barcelona, Spain.

117) “Organic transistors at the interface with biology”, Rencontres Capteurs des Universités de Bourgogne et de Franche-Comté, 18-19 May, 2011 Dijon, France

118) “Photolithography for organic electronics”, MRS Spring Meeting, 25-28 April, 2011, San Francisco, CA.

119) “Organic electronics at the interface with biology”, International Conference Nanoscale Materials and Devices for Energy Conversion, Storage and Biosensor, 3-6 April 2011, Natal, Brasil.

120) “Conducting polymer transistors for biosensor applications”, Institut d’Électronique du Solide et des Systèmes, University of Strasbourg, 15 February 2011, Strasbourg, France

121) “Organic Bioelectronics”, Institut de Science et d'Ingénierie Supramoléculaires, University of Strasbourg, 14 February 2011, Strasbourg, France

122) “Organic electronics at the interface with biology”, Physics Department, University of Linkoping, February 10, 2011, Norrkoping, Sweden.

123) “Organic electronics at the interface with biology”, Chiba University symposium “Organic semiconductors: Towards the next”, November 11-13, 2010, Chiba, Japan.

124) “Organic electronics at the interface with biology”, Center for Nanoscience, University of Munich, Nov. 5, 2010, Munich, Germany.

125) “Conducting polymers for bioelectronics” 8th Greek Polymer Society Symposium, October 24-29, 2010, Hersonissos, Greece.

126) “Organic electrochemical transistors for sensor applications”, DIELOR, October 11-13, 2010, Hyeres, France.

127) “Organic electronics at the interface with biology”, Chemistry Department, University of Hasselt, October 8, 2010, Hasselt, Belgium.

26

128) “Organic electronics at the interface with biology”, Austrian-Slovenian Polymer Meeting 2010, September 8-10, 2010, Leoben, Austria.

129) “Device physics of organic electrochemical transistors”, 7th International Conference on Nanosciences & Nanotechnologies, July 11-14, 2010, Halkidiki, Greece.

130) “Organic transistors and sensors”, 4nd International Summer School on Nanosciences & Nanotechnologies, July 10-17, 2010, Halkidiki, Greece.

131) “Organic bioelectronics”, 3st International Symposium on Flexible Organic Electronics, July 6-9, 2010, Halkidiki, Greece.

132) “Biosensors based on conducting polymer transistors”, Summer School on Biology for Physicists, June 28-July 2, 2010, Porquesrolles, France.

133) “Organic electronics at the interface with biology”, International Conference on Organic Electronics, June 22-25, 2010, Paris, France.

134) “Biosensors based on conducting polymer transistors”, European Science Foundation Exploratory Workshop on Organic Bioelectronics, June 14-16, 2010, Trento, Italy.

135) “Organic electronics at the interface with biology”, European Summer School on Supramolecular Organized Nanostructured Materials for Optoelectronic Applications, June 6-11, 2010, Cagliari, Italy.

136) “Organic electronics at the interface with biology”, 9th International Symposium on Functional pi-Electron Systems, May 23-28, 2010, Atlanta, GA.

137) “Organic electronics at the interface with biology”, Technologies for Polymer Electronics (TPE-10), May 18-20, 2010, Rudolstadt, Germany.

138) “”, JSP CnanoPACA 2010, May 12, 2010, Porquerolles, France. 139) “Organic bioelectronics”, Physics Department, Imperial College London, May 10, 2010, London,

U.K. 140) Keynote presentation: “Organic electronics: brief history, current status and future”, Nanoscale

Devices for Environmental and Energy Applications, April 26,27, 2010, San Sebastian, Spain. 141) “Organic Bioelectronics”, Journées Nanosciences et Industrie, Ecole Centrale Lyon, March 25-26,

2010, Lyon, France. 142) “Organic electronics at the interface with biology”, Winter school on organic electronics, March 6-

12, 2010, Universitäts-Sportheim Planneralm, Austria. 143) “Organic bioelectronics”, 5th Colloque Canceropôle PACA, Feb. 25-26, 2010, Marseille, France. 144) “Organic bioelectronics”, Interfacial Phenomena in Nanostructured Materials and Devices

Workshop, Feb. 7-11, 2010, Telluride, CO. 145) “Organic electronics at the interface with biology”, MRS Fall Meeting, Nov. 30- Dec. 4, 2009,

Boston, MA. 146) Keynote presentation: “Organic bioelectronics”, ARCSIS Micropackaging Days, Oct. 15-16,

2009, Gardanne, France. 147) “Organic bioelectronics”, Laboratoire de Chimie des Polymères Organiques, University of

Bordeaux, Oct. 1, 2009, Bordeaux, France. 148) “Organic bioelectronics”, Nano2009, Sept. 28-30, 2009, San Sebastian, Spain. 149) “Photolithographic patterning of organic electronic materials”, 6th International Conference on

Nanosciences & Nanotechnologies, July 13-15, 2009, Thessaloniki, Greece. 150) “Organic transistors and sensors”, 3nd International Summer School on Nanosciences &

Nanotechnologies, July 11-17, 2009, Thessaloniki, Greece. 151) “Organic bioelectronics”, 2st International Symposium on Flexible Organic Electronics, July 8-10,

2009, Halkidiki, Greece. 152) Keynote presentation: “Organic bioelectronics”, ICMAT 2009, Singapore, June 28-July 3, 2009,

Singapore. 153) “Conducting polymer transistors for biosensor applications”, SOLVAY organic sensors workshop,

June 16-17, 2009, Brussels, Belgium.

27

154) “Organic bioelectronics”, National Centre for Sensor Research, Dublin City University, June 10, 2009, Dublin, Ireland.

155) “Photolithographic patterning for organic electronics”, EIPBN09, May 26-29, 2009, Marco Island, FL.

156) “Photolithographic patterning of organic electronic materials”, MRS Spring Meeting, April 13-17, 2009, San Francisco, CA.

157) “Conducting polymer transistors for biosensor applications”, ACES Electromaterials Symposium, Feb. 4-6, 2009, Wollongong, Australia.

158) “Ions: The neglected carriers in organic electronics”, CSIRO, Feb. 3, 2009, Melbourne, Australia. 159) “Organic electronics”, 1st NNIN international Workshop for Graduate Students, IIT Kanpur, Dec.

8-19, 2008, Kanpur, India. 160) “Photolithographic patterning of organic electronic materials”, MRS Fall Meeting, Dec. 1-5, 2008,

Boston, MA. 161) “Photolithographic patterning of organic electronic materials”, Physics Department, University of

Linkoping, November 20, 2008, Linkoping, Sweden. 162) “Organic Electronics”, Physics Department, Aristotle University of Thessaloniki, November 5,

2008, Thessaloniki, Greece. 163) “The National Nanotechnology Infrastructure Network”, Launch of the Integrated Nanoscience

Platform for Ireland (INSIRE), Trinity College Dublin, October 30, 2008, Dublin, Ireland. 164) “Ions: The neglected carriers in organic electronics”, Physics Department, University of

Binghamton, Oct. 23, 2008, Binghamton, NY. 165) “Photolithographic patterning of organic electronic materials”, Princeton Institute for the Science

and Technology of Materials, Princeton University, October 15, 2008, Princeton, NJ. 166) “Ions: The neglected carriers in organic electronics”, Chemistry Department, University of

Sherbrooke, Oct. 8, 2008, Sherbrooke, Canada. 167) “Photolithographic patterning of organic electronic materials”, Society for Information Display -

Mid Atlantic Chapter, October 6, 2008, Rochester, NY. 168) “Conducting polymer transistors for biosensor applications”, APCTP-ASEAN Workshop on

Advanced Materials Science and Nanotechnology, Sept. 15-21, 2008, Nha Trang, Vietnam. 169) “Photolithographic patterning of organic electronic materials”, 5th International Conference on

Nanosciences & Nanotechnologies, July 14-16, 2008, Thessaloniki, Greece. 170) “Organic electronics”, 2nd International Summer School on Nanosciences & Nanotechnologies,

July 12-18, 2008, Thessaloniki, Greece. 171) “Biosensors: The next big thing in organic electronics?”, 1st International Symposium on Flexible

Organic Electronics, July 9-11, 2008, Halkidiki, Greece. 172) “Ions: The neglected carriers in organic electronics”, Cavendish Laboratory, June 2, 2008,

University of Cambridge, UK. 173) “Conducting polymer transistors for sensor applications”, Plastic Electronics Conference, Oct. 29-

30, 2007, Frankfurt, Germany. 174) “Ions: The neglected carriers in organic electronics”, Physics Department, Humboldt University of

Berlin, Oct. 26, 2007, Berlin, Germany. 175) “Ions: The neglected carriers in organic electronics”, Physics Department, University of Potsdam,

Oct. 25, 2007, Potsdam, Germany. 176) “Ions: The neglected carriers in organic electronics”, Centre for Research on Adaptive

Nanostructures and Nanodevices, Trinity College, Oct. 23, 2007, Dublin, Ireland. 177) “Conducting polymer transistors for sensor applications”, Foundation of Research and Technology

Hellas (FORTH) Retreat, Oct. 12-13, 2007, Rethymnon, Greece. 178) “Utilizing ions in organic electronic devices”, SISPAD Companion Workshop in Organic

Electronics, TU Vienna, Sept. 28, 2007, Vienna, Austria. 179) “Ions: The neglected carriers in organic electronics”, Chemical Engineering Department, SUNY

Buffalo, Sept. 19, 2007, Buffalo, NY.

28

180) “Ions: The neglected carriers in organic electronics”, Chemistry Department, University of North Carolina, Sept. 17, 2007, Chapel Hill, NC.

181) “Organic electronics”, Applied Materials, Sept. 10, 2007, Santa Clara, CA. 182) “Conducting polymer transistors for sensor applications”, General Electric Research Center, Sept.

4, 2007, Niskayuna NY 183) “Ions: The neglected carriers in organic electronics”, College of Nanoscale science and

Engineering, SUNY Albany, Aug. 31, 2007, Albany, NY. 184) “Electroluminescent devices from ionic transition metal complexes”, SPIE Annual Meeting, Aug.

26-30, 2007, San Diego, CA. 185) “Photovoltaic devices from solution processable small molecules”, DuPont Experimental Station,

July 17, 2007, Wilmington, DE. 186) “Conducting polymer transistors for sensor applications”, Organic Microelectronics Workshop,

July 8-11, 2007, Seattle, WA. 187) “Ions: The neglected carriers in organic electronics”, Experimental Solid State Group and Centre

for Electronic Materials and Devices, Imperial College, July 2, 2007, London, U.K. 188) “Conducting polymer transistors for sensor applications”, Center for Organic Bioelectronics,

Karolinska Institute and Linköping University, June 4, 2007, Stockholm, Sweden. 189) “Ions: The neglected carriers in organic electronics”, Laboratory for Materials and

Microelectronics of Provence, University Paul Cezanne of Marseille, June 1, 2007, Marseille, France.

190) “Conducting polymer transistors for sensor applications”, European MRS, May 28-June 1, 2007, Strasbourg, France.

191) “Charge injection and transport in conjugated polymers”, European MRS, May 28-June 1, 2007, Strasbourg, France.

192) “Ions: The neglected carriers in organic electronics”, Materials Science Center, University of Groningen, May 25, 2007, Groningen, the Netherlands.

193) “Conducting polymer transistors for sensor applications”, First COPE-Solvay Symposium on Organic Electronics, May 8-9, 2007, Atlanta, GA.

194) “Photovoltaic cells from solution processable small molecule blends”, MRS Spring Meeting, Apr. 9-13, 2007, San Francisco, CA.

195) “Ions: The neglected carriers in organic electronics”, Dept. of Electrical Engineering, Clarkson University, Apr. 6, 2007, Potsdam, NY.

196) “Pentacene thin film growth”, Spring meeting of the German Physical Society, Mar. 26-30, 2007, Regensburg, Germany.

197) “Applications of synchrotron radiation to organic film growth”, 4th International Conference on Molecular Electronics and Bioelectronics, Mar. 14-16, 2007, Tokyo, Japan.

198) “Ions: The neglected carriers in organic electronics”, Dept. of Chemistry, University of Kentucky, Mar. 9, 2007, Lexington, KY.

199) “Charge injection and transport in conjugated polymers”, APS March Meeting, Mar. 5-9, 2007, Denver, CO.

200) “Ions: The neglected carriers in organic electronics”, Dept. of Materials Science, University of Washington, Feb. 26, 2007, Seattle, WA.

201) “Conducting polymer transistors for biosensor applications”, Corning, Inc., Dec. 12, 2006, Corning, NY.

202) “Biosensors: The next big thing in organic electronics?”, MRS Fall Meeting, Nov. 27-Dec. 1, 2006, Boston, MA.

203) “Ions: The neglected carriers in organic electronics”, Dept. of Materials Science, Northwestern University, Nov. 21, 2006, Evanston, IL.

204) “Prospects in the processing of soft materials”, AVS International Symposium, Nov. 13-17, 2006, San Francisco, CA.

29

205) “Ions: The neglected carriers in organic electronics”, Chemistry Department, Ulm University, Nov. 7, 2006, Ulm, Germany.

206) “Conducting polymer transistors for sensor applications”, 6th Symposium of the Hellenic Polymer Society, Nov. 3-5, 2006, Patras, Greece.

207) “Conducting polymer transistors for sensor applications”, Annual Symposium on Electronics Packaging and Emerging Technologies, General Electric Research Center, Oct. 23-24, 2006, Niskayuna NY.

208) “Organic Electronics”, Hellenic Conference on Solid State Physics and Materials Science, September 24-27, 2006, Patras, Greece.

209) “Pentacene thin film growth”, Nebraska Center for Materials and Nanostructures, University of Nebraska, September 1, 2006, Lincoln, NE.

210) “Ions: The neglected carriers in organic electronics”, Department of Physics and Astronomy, University of Nebraska, August 31, 2006, Lincoln, NE.

211) “Pentacene thin film growth”, Gordon Research Conference on Electronic Processes in Organic Materials, July 30-Aug. 4, 2006, Mount Holyoke College, MA.

212) “Ions: The neglected carriers in organic electronics”, Department of Chemistry, Georgia Tech, June 13, 2006, Atlanta, GA.

213) “Biosensors: The next big thing in organic electronics?”, European MRS, May 29-June 2, 2006, Nice, France.

214) “Ions: The neglected carriers in organic electronics”, Fpi7, May 15-19, 2006, Osaka, Japan. 215) “Pentacene thin film growth”, Symposium on Organic Electronics, May 13, 2006, Fukui, Japan. 216) “Organic electronics”, Panasonic Research Laboratories, May 12, 2006, Osaka, Japan. 217) “Organic electronics”, Hitachi Research Laboratories, May 11, 2006, Tsukuba, Japan. 218) “Biosensors: The next big thing in organic electronics?”, MRS Meeting, Apr. 17-21, 2006, San

Francisco, CA. 219) “Organic electronics”, Physics Department, Temple University, March 27, 2006, Philadelphia, PA. 220) “Ions: The neglected carriers in organic electronics”, Physics Department, University of Alicante,

March 24, 2006, Alicante, Spain. 221) “Pentacene growth and transistor applications”, Physics Department, University of Alicante, March

23, 2006, Alicante, Spain. 222) “Charge injection in organic semiconductors”, Physics Department, University of Alicante, March

22, 2006, Alicante, Spain. 223) “Charge injection in organic semiconductors”, Institute of Molecular Solids, University of

Valencia, March 20, 2006, Valencia, Spain. 224) “Charge injection in organic semiconductors”, Electronic Structure and Processes at Molecular-

Based Interfaces (ESPMI-06), March 2-4, 2006, Nagoya, Japan. 225) “Organic electronics”, Engineering Physics Department, École Polytechnique de Montréal, Nov.

10, 2005, Montréal, Canada. 226) “Organic electronics”, INRS-Université du Québec, Nov. 9, 2005, Varennes, Canada. 227) “Ions: The neglected carriers in organic electronics”, Chemistry Department, University of Florida,

Nov. 3, 2005, Gainesville, FL. 228) “Pentacene growth and transistor applications”, Materials Science and Engineering Department,

University of Florida, Nov. 2, 2005, Gainesville, FL. 229) “Charge injection in organic semiconductors”, Physics Department, University of Florida, Oct. 31,

2005, Gainesville, FL. 230) “Electroluminescent devices from ionic transition metal complexes”, OSA Annual Meeting, Oct.

16-20, 2005, Tucson, AZ. 231) “Organic electronics”, NES-APS/AAPT, University of Vermont, Oct. 14-15, 2005, Burlington, VT. 232) Videoconference “Organic electronics”, Shaastra Technology Festival, IIT Madras, Oct. 7, 2005,

Madras, India. 233) “Pentacene thin film growth”, SPIE Annual Meeting, July 31- Aug. 4, 2005, San Diego, CA.

30

234) “Electroluminescent devices from ionic transition metal complexes”, Gordon Research Conference on the Chemistry of Electronic Materials, July 17-22, 2005, Connecticut College, CT.

235) “Organic light emitting diodes”, Symposium on optical technologies and materials for lighting, organized by the German Glass Society, May 23-27, 2005, Bad Soden, Germany.

236) “Electroluminescent devices from ionic transition metal complexes”, MRS Meeting, Mar. 28-Apr. 1, 2005, San Francisco, CA.

237) “Electroluminescent devices from ionic transition metal complexes”, APS March Meeting, Mar. 21-25, 2005, Los Angeles, CA.

238) “Organic semiconductors and devices”, Winter school on NanoScience, organized by the Ludwig-Maximillians University of Germany, Feb. 23, 2005, Mauterndorf, Austria.

239) “Organic semiconductors and devices”, Physics Department, University of Linkoping, Feb. 18, 2005, Linkoping, Sweden.

240) “Organic semiconductors and devices”, DuPont Experimental Station, Jan. 28, 2005, Wilmington, DE.

241) “Organic semiconductors and devices”, Department of Physics, University of New Mexico, Dec. 10, 2004, Albuquerque, NM.

242) “Growth of pentacene films for transistor applications”, AVS International Symposium, Nov. 14-19, 2004, Anaheim, CA.

243) “Organic semiconductors and devices”, Department of Materials Science, University of Michigan, Nov. 12, 2004, Ann Arbor, MI.

244) “Organic electronics”, Panasonic Boston Laboratory, Nov. 9, 2004, Boston, MA. 245) “Electroluminescent devices from ionic transition metal complexes”, Society for Information

Display MAC meeting, Nov. 4, 2004, Park Ridge, NJ. 246) “Organic electroluminescent devices”, Laboratory for Laser Energetics, University of Rochester,

Oct. 29, 2004, Rochester, NY. 247) “Organic semiconductors and devices”, Department of Chemistry, University of Binghamton, Oct.

22, 2004, Binghamton, NY. 248) “Organic electronics”, Chemistry Department, University of Patras, Oct. 13, 2004, Patras, Greece. 249) “Organic semiconductors and devices”, Chemical Engineering Department, University Louis

Pasteur of Strasbourg, Oct. 11, 2004, Strasbourg, France. 250) “Organic thin film transistor based biosensors”, SPIE Annual Meeting, Aug. 2-6, 2004, Denver,

CO. 251) “Electroluminescence in transition metal complexes”, SPIE Annual Meeting, Aug. 2-6, 2004,

Denver, CO. 252) “Interfaces in organic electronic devices”, ARO workshop, June 8, 2004, Arlington, VA. 253) “Nanoscale organic transistors”, European MRS, May 24-28, 2004, Strasburg, France. 254) “Electroluminescence in transition metal complexes”, ACS National Meeting, Mar. 28 – Apr. 1,

2004, Anaheim, CA. 255) “Charge injection and transport in doped organic semiconductors”, APS March Meeting, Mar. 22-

26, 2004, Montreal, Canada. 256) “Organic light emitting devices from transition metal complexes”, Mid-Atlantic Chapter of the

Society for Information Display, Feb. 18, 2004, New York, NY. 257) “Organic semiconductors and devices”, Chemistry Department, University of Tokyo, Jan. 16, 2004,

Tokyo, Japan. 258) “Charge injection in organic semiconductors”, Symposium on Frontiers of Physical Chemistry on

Molecular Materials, Jan. 13-14, 2004, Nagoya, Japan. 259) “How to make ohmic contacts to organic semiconductors”, MRS Fall Meeting, Dec. 1-5, 2003,

Boston, MA. 260) “Organic semiconductors and devices”, Naval Research Laboratory, Nov. 12, 2003, Washington,

DC.

31

261) “Organic semiconductors and devices”, Physics Department, University of Wisconsin, Nov. 6, 2003, Madison, WI.

262) “Pentacene thin film transistors”, IS&Ts International Conference on Digital Printing Technologies, Sept. 28-Oct. 4, 2003, New Orleans, LA.

263) “Organic semiconductors and devices”, Chemistry Department, Tulane University, Sept. 29, 2003, New Orleans, LA.

264) “Charge injection in organic semiconductors”, Polymers for Advanced Technologies 2003, Sept. 21-23, 2003, Ft. Lauderdale, FL.

265) “Organic semiconductors and devices”, Materials Science and Engineering, Massachusetts Institute of Technology, Sept. 10, 2003, Boston, MA.

266) “Organic semiconductors and devices”, GE Research Center, Sept. 9, 2003, Niskayuna, NY. 267) “Electroluminescent devices based on transition metal complexes”, XII International Materials

Research Congress, August 18-21, Cancun, Mexico. 268) “Organic semiconductors and devices”, Kodak, July 24, 2003, Rochester, NY. 269) “Pentacene transistors”, TMS Electronic Materials Conference, June 25-27, 2003, Salt Lake City,

UT. 270) “Organic semiconductors and devices”, Physics Department, Delft University, June 19, 2003,

Delft, the Netherlands. 271) “Charge injection in organic semiconductors”, Physics Department, Delft University, June 18,

2003, Delft, the Netherlands. 272) “Charge injection and transport in amorphous organic semiconductors”, DOE Workshop on solid

state lighting, NSF panel, May 23, 2003, Salt Lake City, UT. 273) “Charge injection and transport in organic semiconductors”, Annual Technical Meeting of Society

of Plastics Engineers, May 4-8, 2003, Nashville, TN. 274) “Pentacene thin film transistors”, Physics Department, Vanderbilt University, May 4-8, 2003,

Nashville, TN. 275) “Charge injection in organic semiconductors”, MRS Spring Meeting, April 21-25, 2003, San

Francisco, CA. 276) “Organic semiconductors and devices”, Materials Science Department, UCLA, April 18, 2003, Los

Angeles, CA. 277) “Linking spectroscopic and interface transport measurements”, 306th International WE-Heraeus

Seminar on Energetics of Interfaces between Organic Molecules and Conductors, March 20 - 22, 2003, Bad Honnef, Germany.

278) “Charge injection in organic semiconductors”, 2nd Optoelectronic & Photonic Winter School, Feb. 22-28, 2003, Sardagna, Italy.

279) “Charge transport in organic semiconductors”, 2nd Optoelectronic & Photonic Winter School, Feb. 22-28, 2003, Sardagna, Italy.

280) “Charge injection and transport in amorphous organic semiconductors”, National Science Foundation Workshop on organic electronics and photonics, NSF panel, Jan. 16-17, 2003, Arlington, VA.

281) “Charge injection in organic semiconductors”, Chemistry Department, Japan Advanced Institute of Science and Technology (JAIST), Nov. 18, 2002, Nomi, Japan.

282) “Organic semiconductors and devices”, Chemistry Department, Northwestern University, Nov. 4, 2002, Evanston, IL.

283) “Pentacene-based transistors”, 202nd Meeting of the Electrochemical Society, Oct. 20-25, 2002, Salt Lake City, UT.

284) “Organic light emitting devices from transition metal complexes”, Society for Information Display Meeting, Oct. 11, 2002, Princeton, NJ.

285) “Charge injection in organic semiconductors”, Materials Science Centre, University of Groningen, Sept. 27, 2002, Groningen, the Netherlands.

32

286) “Charge injection in organic semiconductors”, Energy Research Foundation (ECN), Sept. 26, 2002, Petten, the Netherlands.

287) “Charge injection in organic semiconductors”, Physics Department, University of British Columbia, Sept. 20, 2002, Vancouver, Canada.

288) “Organic semiconductors and devices”, Physics Department, University of British Columbia, Sept. 19, 2002, Vancouver, Canada.

289) “From organic to molecular electronics”, Workshop on molecular wires and devices, July 28-August 2, 2002, Laramie, WY.

290) “Charge injection in organic semiconductors”, SPIE Annual Meeting, July 7-12, 2002, Seattle, WA.

291) “Charge injection and transport in organic semiconductors”, Physics Department, University of Linköping, June 10, 2002, Linköping, Sweden.

292) “Charge injection and transport in organic semiconductors”, Philips Research Laboratories, June 6, 2002, Eindhoven, the Netherlands.

293) “Charge injection in organic semiconductors”, Fpi5, May 30-June 4, 2002, Ulm, Germany. 294) “Orientation of pentacene films using surface alignment layers and its influence on thin film

transistor characteristics”, Annual Synchrotron Users’ Meeting, May 20-22, 2001, Brookhaven National Laboratory, NY.

295) “Organic Semiconductors and Devices”, Physics Department, Case Western Reserve University, April 15, 2002, Cleveland, OH.

296) “What can organic semiconductors do for the environment?”, NYSS-APS and American Association of Physics Teachers, April 13, 2002, Oneonta, NY.

297) “Charge injection in organic semiconductors”, APS March Meeting, March 18-22, 2002, Indianapolis, IN.

298) “Organic Semiconductors and Devices”, Anvik Corporation, March 7, 2002, Hawthorne, NY. 299) “Charge injection in organic semiconductors”, MRS Fall Meeting, November 26-30, 2001, Boston,

MA. 300) Keynote presentation “Charge injection and transport in organic semiconductor devices”, TMS

Fall meeting, November 5-9, 2001, Indianapolis, IN. 301) “Charge injection in organic semiconductors”, International Symposium on Organic Electronic and

Photonic Materials and Devices, October 30-November 2, 2001, Osaka, Japan. 302) “Charge injection in organic semiconductors”, Department of Chemical Engineering and Materials

Science, University of Minneapolis, September 18, 2001, Minnesota, MN. 303) “Charge injection in organic electronic devices”, Canon Research Center of Americas, July 27,

2001, San Jose, CA. 304) “Charge injection in organic semiconductors”, MRS Spring Meeting, April 16-20, 2001, San

Francisco, CA. 305) “Charge injection and transport in organic semiconductors”, Department of Materials Science and

Engineering, Pennsylvania State University, January 30, 2001, State College, PA. 306) “Charge injection in organic semiconductors”, SPIE Photonics West, January 20-26, 2001, San

Jose, CA. 307) “Charge injection and transport in organic semiconductors”, Electronic Materials and Device

Group Seminar, Department of Electrical Engineering, Princeton University, November 13, 2000, Princeton, NJ.

308) “Charge injection and transport in organic semiconductors”, Naval Research Laboratory, October 5, 2000, Washington, DC.

309) “Charge injection and transport in organic semiconductors”, Department of Chemical Engineering, University of Rochester, October 4, 2000, Rochester, NY.

310) “Photovoltaic devices from donor-acceptor blends and composites”, SPIE Annual Meeting, August 3, 2000, San Diego, CA.

311) “Charge injection and transport in organic semiconductors”, Kodak, June 1, 2000, Rochester, NY.

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312) “Charge injection and transport in organic semiconductors”, Physical Sciences Seminar, Lucent, May 26, 2000, Murray Hill, NJ.

313) “Organic light emitting diodes”, Universal Instruments Corporation, May 11, 2000, Binghamton, NY.

314) “Organic light emitting diodes”, Integrated Electronics Engineering Center, University of Binghamton, May 11, 2000, Binghamton, NY.

315) “Organic semiconductor devices”, Foundation for Research and Technology Hellas, University of Crete, April 6, 2000, Iraklio, Greece.

316) “Charge injection and transport in organic semiconductors”, Xerox Research Centre of Canada, March 6, 2000, Toronto, Canada.

317) “Charge injection and transport in organic semiconductors”, Physical Sciences Seminar, IBM Research Division, March 2, 2000, Yorktown heights, NY.

318) “Optoelectronic devices from organic materials”, Topical Meeting of the Materials Research Society, October 4, 1999, Rochester, NY.

319) “The physics of organic light emitting diodes”, Naval Research Laboratory, September 17, 1999, Washington, DC.

320) “Organic optoelectronics research at Cornell”, Canon Research Center of Americas, August 11, 1999, Palo Alto, CA.

321) “Organic light emitting diodes from liquid crystalline oxadiazoles”, Chemistry Department, Kent State University, August 4, 1999, Kent, OH.

322) “Electrical characteristics of organic light emitting diodes”, Annual Symposium of the Center for Photoinduced Charge Transfer, University of Rochester, July 26-29, 1999, Rochester, NY.

323) “Characterization of organic light emitting diodes”, Knowledge Foundation Meeting on commercialization advances in small molecule and polymer organic light emitting diodes, April 26-27, 1999, San Diego, CA.

324) “Photorefractivity in polymers”, Physics Department, University of California in Santa Cruz, October 1, 1997, Santa Cruz, CA.

325) “Novel photorefractive polymers”, IBM Almaden Research Center, August 22, 1996, San Jose, CA.

326) “Photorefractivity in polymers”, Electrical Engineering Department, University of California at Santa Barbara, August 19, 1996, Santa Barbara, CA.

327) “Photorefractive polymers: Novel materials for optical information storage and processing”, Rockwell Science Center, August 16, 1996, Thousand Oaks, CA.

328) “The photorefractive effect in polymers”, Electrical Engineering Department, California Institute of Technology, August 14, 1996, Pasadena, CA.

329) “Photorefractivity in poly(N-vinylcarbazole) based composites”, SPIE Meeting on photorefractive polymers, July 5-9, 1996, Denver, CO.

330) “The photorefractive effect in polymers”, Physics and Astronomy Department, University of Manchester, May 30, 1996, Manchester, U.K.

331) “Photorefractivity in polymers”, International Symposium on Holographic Memories, May 13-15, 1996, Athens, Greece.

332) “Photorefractivity in poly(N-vinylcarbazole) based polymer composites”, Materials for Nonlinear Optics, 7th topical meeting of the European Optical Society, January 14-18 , 1996, Val Thorens, France.

333) “Transient photorefractive gratings in polymers”, SPIE Meeting on Nonlinear Optical Properties of Organic Materials VIII, July 10-14, 1995, San Diego, CA.

334) “Engineering of photorefractive polymers”, Conference on Lasers and Electrooptics Europe, August 28 - September 2, 1994, Amsterdam, the Netherlands.

335) “Recent applications of polymers in optoelectronics”, Materials Science Center biannual meeting, April 25-27, 1993, Vlieland, the Netherlands.

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CONFERENCE ORGANIZATION

1) Co-organizer, 2016 E-MRS Symposium on Adaptive Systems, May 2016, Lille, France. 2) Co-chair, 2015 MRS Fall Meeting, Boston, MA. 3) Co-chair, Faraday discussion 174 “Organic Electronics and Photonics”, September 2014, Glasgow,

UK. 4) Co-organizer of symposium on “Advanced Multifunctional Biomaterials for Neuroprosthetic

Interfaces”, MRS Spring Meeting, April 2014, San Francisco, CA. 5) Co-organizer, “Bioelectronics workshop”, 11th International Conference on Nanosciences and

Nanotechnologies, July 2014, Thessaloniki, Greece. 6) Co-organizer, “Bioelectronics workshop”, 10th International Conference on Nanosciences and

Nanotechnologies, July 2013, Thessaloniki, Greece. 7) Co-organizer, “Bioelectronics workshop”, 9th International Conference on Nanosciences and

Nanotechnologies, July 2012, Thessaloniki, Greece. 8) Lead organizer, Summer school “at the interface between electronics and biology”, June 2012,

Porquerolles, France. 9) Lead organizer, Gordon Research Conference “Electronic Processes in Organic Materials”, June

2012, Lucca, Italy. 10) Lead organizer, “Workshop on Bioelectronics”, Plastic Electronics, October 2011, Dresden,

Germany. 11) Lead organizer, Summer school “at the interface between electronics and biology”, June 2011,

Porquerolles, France. 12) Co-organizer of symposium on “Organic bioelectronics and photonics for sensing and regulation”,

MRS Spring Meeting, April 2011, San Francisco, CA. 13) Co-organizer of symposium on “Functional Materials and Nanostructures for Chemical and

Biochemical Sensing”, MRS Spring Meeting, April 2010, San Francisco, CA. 14) Co-organizer of a symposium on “Organic Semiconductors in Sensors and Bioelectronics”, SPIE,

August 2009, San Diego, CA. 15) Co-organizer of symposium on “Polymers for Photonics”, ACS National Meeting, March 22-26,

2009, Salt Lake City, UT. 16) Co-organizer of a symposium on “Organic Semiconductors in Sensors and Bioelectronics”, SPIE,

August 2008, San Diego, CA. 17) Co-organizer of symposium on “Interfaces in Organic and Molecular Electronics”, MRS Fall

Meeting, December 2007, Boston, MA. 18) Co-organizer of a symposium on “Applications of Organic Devices to Chemical and Biological

Sensors”, SPIE, August 2007, San Diego, CA. 19) Co-organizer of the OLED track, DOE workshop on “Basic Research Needs for Solid-State

Lighting”, May 22–24, 2006, Arlington, VA. 20) Co-organizer of the first Organic Microelectronics Workshop, ACS/MRS/IEEE, July 10-13, 2005,

Newport, RI. 21) Lead organizer of the Sixth International Symposium on Functional pi-Electron Systems, June 14-

18, 2004, Ithaca, NY. 22) Co-organizer of focus session on “Organic Electronic Devices”, APS Meeting, March 2003,

Austin, TX. 23) Co-organizer of symposium on “Polymer/Metal Interfaces”, MRS Fall Meeting, December 2002,

Boston, MA. 24) Session co-chair “Optoelectronic Imaging Materials and Devices”, IS&T International Conference

on Digital Printing Technologies, September 2002, San Diego, CA. 25) Invited Organizer of symposium on “Issues in Organic Electronics”, TMS Electronic Materials

Conference, June 2002, Santa Barbara, CA.

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26) Co-organizer of symposium on “Organic Optoelectronic Materials, Processing and Devices”, MRS Fall Meeting, November 2001, Boston, MA.

27) Invited Organizer of symposium on “Molecular and Organic Electronics”, TMS Electronic Materials Conference, June 2001, Notre Dame, IN.

28) Session co-chair “Optoelectronic Imaging Materials and Devices”, IS&T International Conference on Digital Printing Technologies, October 2000, Vancouver, Canada.

29) Invited Organizer of symposium on “Materials Issues for Organic Optoelectronics and Transistors”, TMS Electronic Materials Conference, June 2000, Denver, CO.

Documents

George Gregory Malliaras · 3 RESEARCH My research is in the area of bioelectronics, specifically the application of organic electronic materials in neural interfacing, aiming to