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7/27/2019 Nanotechnology and Cellulose
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Nanotechnology andthe paper/forest product
industry
Dan Coughlin
Paul GilbertSteven MasiaTety Roper
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Growing Trend in Nanotechnology
Number of Publications in Nanotechnology Area
0
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NumberofPublishedJournals
Growing Trend in
Nanotechnology
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Nanotechnology Based on the Application inVarious Market Segment
Nanotechnology Application
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Coated
pap
er
Auto
motive
Food
Archite
ctural
Cosm
etic
Packagin
g
Semico
nducto
r
Pharmac
eutic
al
Plastic
s
NumberofPublishedJournals
Nanotechnology Sector
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Mechanical Tailoringand control
(Lightweight paperwith high strength=
Aerogel)
LignocelluloseControl and
conformationtailoring
( Improvedconstruction
materials)
Thermal Propertiesand functionality( Controlled heatconductivity and
capacity)
Nano scalePolysaccharide
Processing( New
biopolymersEthanol
biorefinery)
Surface Functionalityand Tailoring( Hydrophobic/Hydrophilic
Biosensors)
Electronic Functionalityand Sensing
(Printed electronicsdisplays, solar cells,
fuel cells, medicalsensors)
Optical properties(Specialized optics
by photonicnanostructure)
Modeling Smart
Cellulose structures(Piezoelectric-
Electro-rheostatic andMagneto-rheostatic )
Polymer Interactionand control of water
interaction(Improve dimensional
stability)
Particle interactionand Grafting
(Self assembly andreinforcement for
tensile strength, andelasticity)
Nanoscalecomposites
(Formation ofnanofibers for
compositeprocessing)
Porosity andControl
( Improvedfiltration andmembranes
Improved
printability)
Application Areas
Nano-lignocellulosics
http://www.emlab.ubc.ca/imagesElaine/motheye_mp_thmb.gif7/27/2019 Nanotechnology and Cellulose
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Nanotechnology Current Products, Approaches and New
Processes Current challenges
Forest Nanomaterials Strength improvements
Water-Lignocellulose interaction Cellulose nanocomposites
Viscose and Rayon containing Nanoparticles Applications of Nanopigments and Nanocoatings
Photonics and Electro nic /Piezo propert ies What is possible?
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Current Products, Approaches
and New Processes
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Current products
Method of making paper products using calciumcarbonate nanoparticles.
US patent: 20050247421
Retention systems: http://www.tappi.org/s_tappi/doc_bookstore.asp?CID=5071&DID=52660
1
http://www.tappi.org/s_tappi/doc_bookstore.asp?CID=5071&DID=526602
http://www.papermaking-chemistry.com/spring05.htm
http://www.tappi.org/s_tappi/doc_bookstore.asp?CID=5071&DID=526601http://www.tappi.org/s_tappi/doc_bookstore.asp?CID=5071&DID=526601http://www.tappi.org/s_tappi/doc_bookstore.asp?CID=5071&DID=526602http://www.tappi.org/s_tappi/doc_bookstore.asp?CID=5071&DID=526602http://www.papermaking-chemistry.com/spring05.htmhttp://www.papermaking-chemistry.com/spring05.htmhttp://www.papermaking-chemistry.com/spring05.htmhttp://www.papermaking-chemistry.com/spring05.htmhttp://www.tappi.org/s_tappi/doc_bookstore.asp?CID=5071&DID=526602http://www.tappi.org/s_tappi/doc_bookstore.asp?CID=5071&DID=526602http://www.tappi.org/s_tappi/doc_bookstore.asp?CID=5071&DID=526601http://www.tappi.org/s_tappi/doc_bookstore.asp?CID=5071&DID=5266017/27/2019 Nanotechnology and Cellulose
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Cellulose nanofiber bundles
6 Assembly
proteins
(rosette)
which
produces
cellulose
nanofibers
Candace Haigler and Larry Blanton, Cellulose: You'resurrounded by it, but did you know it was there?
jupiter.phys.ttu.edu/corner/1999/dec99.pdfwww.ita.doc.gov/td/forestprod/
Cellulose Synthesis and Material Production:Nature Working Across a Length Scale >1010!
~28nm
Source: Jeffer Catchmark Penn State Universit
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http://www.forestprod.org/woodfiber05sain2.pdf
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Nanotechnology in Paper Application
Nano-Engineering Particle Surfaces Controlled particle dispersion in polymer matrix
Improved effectiveness of light scattering
Protection of filler or pigment from external influences
Improved compatibility by promoting interaction between
filler with binder or co-binder Increased surface area leading to improved ink receptibility
Stimuli responsive triggered by pH, temperature, moisture,or magnetic response
NanofiberKey Utilized key learning in other areas. For example: nanotechnologybased on sol-gel reaction has been known in semiconductor for a longtime re-inventing this (architectural coating, abrasive resistant topcoat inautomotive)
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Controlled Modification of Clay platelets
Physical Approach driven by electrostatic interactions
between oppositely charged species that generates astable end product
Chemical Approach functionalization of clay surfaceusing covalent bonded molecules allowing the tuning ofhydrophobicity and functionality
Dumb-bell shaped clay withlatex on the clay surface
D.J. Voorn, W. Ming, A.M. van Herk,Macromolecular Symposia 2006, 245-246, 584-
590
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Electrospinning of Nanofiber
Incorporation of Nanoparticles intoElectrospinning solution to create
Nanofibers with various properties (A) Encapsulation of iron oxide
Nanoparticles into Nanofibersconductive
(B) Deposition of silver Nanoparticles on
the NanoFiber surface antimicrobial (C) Nanofibers with porous structure
scattering
(D) Uniaxilly aligned Nanotubes scatteror perhaps controlled released?
A
B C
D. Li, Y.Xia, Advanced Materials 2004, 16, No. 14, 1151
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Application of Nanotechnology in Other Areas
Special Effect Pigments used in printing, packaging
and specialty coating i.e. Pearl Lustre Pigments Textile industry Cousin to paper industry (both
based on cellulose products) Water repel lant Nanowhiskers and Nanosphere (Nanotex and Schoeller)
UV protect ion fabr ic sol gel method to treat the cotton fabric or nanorods
An tibacterial fabric impregnated fabric with Nanosilver
Wrinkle resistant incorporation of Nanosilica with maleic anhydride toimprove crosslinking to create wrinkle resistance in silk
Catalys t paper- for Photocatalytic degradation using TiO2 Nanoparticles
http://scholar.ilib.cn/A-zgzz200412015.html
Optical ly transparent produ cts for electronics/displays/packaging
http://adsabs.harvard.edu/abs/2005ApPhA..81.1109I
http://scholar.ilib.cn/A-zgzz200412015.htmlhttp://adsabs.harvard.edu/abs/2005ApPhA..81.1109Ihttp://adsabs.harvard.edu/abs/2005ApPhA..81.1109Ihttp://scholar.ilib.cn/A-zgzz200412015.htmlhttp://scholar.ilib.cn/A-zgzz200412015.htmlhttp://scholar.ilib.cn/A-zgzz200412015.html7/27/2019 Nanotechnology and Cellulose
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Current Challenges
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Barriers
Nano-fractionalization and nano-
catalysis forseparations;
Non covalent disassembly/re-assembly
Entropic effects in the assembly anddisassembly of nanomaterials inforestmaterials
Challenge 1: Forest Nanomaterials
Goal:
Liberation and use of nanocellulose
building blocks
Current solutions:
Nanofiltration and low-pressure reverse osmosis membranes:
http://www.aseanbiotechnology.info/Abstract/21018571.pdfhttp://www.ingentaconnect.com/content/els/00151882/1997/00000034/00000003/art84794http://cat.inist.fr/?aModele=afficheN&cpsidt=16113640
Nanofilters
http://www.aseanbiotechnology.info/Abstract/21018571.pdfhttp://www.ingentaconnect.com/content/els/00151882/1997/00000034/00000003/art84794http://www.ingentaconnect.com/content/els/00151882/1997/00000034/00000003/art84794http://cat.inist.fr/?aModele=afficheN&cpsidt=16113640http://cat.inist.fr/?aModele=afficheN&cpsidt=16113640http://www.ingentaconnect.com/content/els/00151882/1997/00000034/00000003/art84794http://www.ingentaconnect.com/content/els/00151882/1997/00000034/00000003/art84794http://www.aseanbiotechnology.info/Abstract/21018571.pdf7/27/2019 Nanotechnology and Cellulose
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Nanocellulose Fiber: Nanofilters
http://www.zamslube.com/images/sem_filter.jpg
http://www.zamslube.com/images/sem_filter.jpghttp://www.zamslube.com/images/sem_filter.jpg7/27/2019 Nanotechnology and Cellulose
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7/27/2019 Nanotechnology and Cellulose
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http://www.forestprod.org/woodfiber05sain2.pdf
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http://www.forestprod.org/woodfiber05sain2.pdf
B i
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Chal lenge 2: Improv e strength
weight per formance
Target:
40% fewer materials for sameperformance
60# performance with 45# CWFMechanical (bonding ) and optical
Performances
Barriers
Control of Nanostructural andinterface properties
Selection of designer shapes andmultiple material compatibility
Control of hierarchical structures
Measurement of nano-scale strain ,
shear and bulk moduli
Adhesion and bonding at Nano-scale
Current Solutions1) Plant microfiber bundles with a nanometer unit web-like network
http://cat.inist.fr/?aModele=afficheN&cpsidt=15573377Bending strength 310 MPa.
2) Soaking cellulose in nylon 6-6 for reinforcement
JP 2003128791
http://cat.inist.fr/?aModele=afficheN&cpsidt=15573377http://cat.inist.fr/?aModele=afficheN&cpsidt=155733777/27/2019 Nanotechnology and Cellulose
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http://www.forestprod.org/woodfiber05sain2.pdf
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http://www.forestprod.org/woodfiber05sain2.pdf
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Double tensile strength of paper with 10 nm LbL coating
Zheng,McDonald,Khillan, Su,Shutava,Grodzits, andLvov
J. Nansci. Nanotechnol. 6, 624-632, 2006
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Viscose and Rayon containing Nanoparticles
Viscose fiber: CN 2005-10104905 Dry breaking strength 2.10 CN/dtex,
Wet breaking strength 1.20 CN/dtex
Dry breaking elongation 16%
By adding 2-12% nanoscale carbon colloid with particle size20-40 nm
Rayon antibacterial: CN 2005-10104907 Nanoscale silver antibacterial agent with particle size 50-65 nm
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Challange 3 : Water-lignocelluloseinteraction
Target
Understand water forest materialsinteractions
Control effects of water on wood andpaper properties
Shed water more efficiently
Barriers
Interfacial properties at nanoscale
Production of hydrophilic/hydrophobicswitchable surfaces
Biological activity control
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ESEM - Environmental Scanning Electron Microscope
Dry sheetMoisturized sheet
News, 45 g/m
G. A. Baum 2003
BarrierChallenge #4: Ino rganic -org anic
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Barrier
Understand & control surface chemicalreactivity
Characterization of structures atnanoscale
Measurement of physical properties atnanoscale
Multiple material compatibility
Directed self assembly of nano-
components
Challenge #4: Ino rganic -org anic
nanocomposi tes nanoscale sur face
modi f icat ion
Target:
Produce nano-compositematerials from forest materials
Multiple current applications:
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Cellulose Nanocomposites
Cellulose with Nanoclay Flame retardant: WO 2007022552 Composite: CN 2005-10033705
Cellulose with carbon Nanotubes For electro active paper:
http://spiedl.aip.org/getabs/servlet/GetabsServlet?prog=normal
&id=PSISDG006168000001616823000001&idtype=cvips&gifs=yes
Composite nonwoven fabric for Medicalapplications WO 2006060398
US 2005142973 US 2003-483839P
Cellulose Nanocrystals http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=
PubMed&list_uids=15762677&dopt=Abstract
Chal lenge 5 Photo nics and Barriers
http://spiedl.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PSISDG006168000001616823000001&idtype=cvips&gifs=yeshttp://spiedl.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PSISDG006168000001616823000001&idtype=cvips&gifs=yeshttp://spiedl.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PSISDG006168000001616823000001&idtype=cvips&gifs=yeshttp://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=15762677&dopt=Abstracthttp://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=15762677&dopt=Abstracthttp://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=15762677&dopt=Abstracthttp://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=15762677&dopt=Abstracthttp://spiedl.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PSISDG006168000001616823000001&idtype=cvips&gifs=yeshttp://spiedl.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PSISDG006168000001616823000001&idtype=cvips&gifs=yeshttp://spiedl.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PSISDG006168000001616823000001&idtype=cvips&gifs=yes7/27/2019 Nanotechnology and Cellulose
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Chal lenge 5 - Photo nics and
Electro nic /Piezo propert ies
TargetProduce Optically efficient structures
Control electronic properties of forestmaterials
Barriers
Selection of controlled size and shapebuilding blocks
Characterization of physical structure,interfaces, material intermixing anddefects
Self assembly of building blocks intocontrolled structures
Liquid crystal structures of buildingblocks (forest based and mineral)
Contact effects at nanoscale
Effect of dopants
Hybrid organic/bio/inorganic devices
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Whats a Photonic Crystal
A material containing two discretecomponents having different indexes ofrefraction arranged in a particular
periodic fashion
1D is wavelength dielectric mirror
3D is similar scale holes arranged in
a crystal-like configuration in adielectric medium
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Steven Johnson, MIT
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What Type of Mirror?
Standard Aluminum Mirror only < 90%efficient
Front-Surface Silver = 95%, but tarnishes ! Conventional Broadband Dielectric Mirror
can exceed 98% but is $200/sq.inch and isnot flexible (sputtered coatings)
3M ESR Polymeric Film is > 98% over theentire visible spectrum and incident angles
and costs $15/sq.ft. and is very flexible. 3D Photonic Crystal Slabs > 99% over the
entire visible spectrum and incident angles.
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What is possible?
Nano-optics control of opacity Nanoparticle Arrays on Surfaces for
Electronic, Optical, and Sensor Applications
Self assembly
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What is possible?
Electronic devices Nanoelectromechanical memory
Gate dielectrics
Nanopillars for zero-field microwave generation
Cellulose as a nanotemplate: http://pubs.acs.org/cgi-
bin/abstract.cgi/bomaf6/2004/5/i03/abs/bm034532u.html
http://pubs.acs.org/cgi-bin/abstract.cgi/bomaf6/2004/5/i03/abs/bm034532u.htmlhttp://pubs.acs.org/cgi-bin/abstract.cgi/bomaf6/2004/5/i03/abs/bm034532u.htmlhttp://pubs.acs.org/cgi-bin/abstract.cgi/bomaf6/2004/5/i03/abs/bm034532u.htmlhttp://pubs.acs.org/cgi-bin/abstract.cgi/bomaf6/2004/5/i03/abs/bm034532u.htmlhttp://pubs.acs.org/cgi-bin/abstract.cgi/bomaf6/2004/5/i03/abs/bm034532u.htmlRecommended