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Centre for Green Electronics
Prof. Jussi Parkkinen Presentation to MOHESchool of EngineeringNovember 2, 2011
GREEN means Better energy efficiency
Environmental friendlier production technology
Environmental and social sustainability
Keeping in mind the Four Pillars of National Green Technology Policy:– Energy– Environment – Economy– Social
Affects two of KeTTHA’s sectors: Energy sector and Building sector
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www.TechCast.org
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Organic Farm
Green Business
Climate Control
Alternat Energy
Water Purif
Recycling
Energy & Environment
Year to break through
Exp
ert
con
fid
ence
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Decrease Climate Change
Use of Energy
Lighting energy uses world wide
– 12 % of all energy consumption– 20 % of electricity consumption
Energy consumption in Malaysia is increasing – we need
– Increased production of energy– Modern energy efficient technologies
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M. R. Luo / Coloration Technology 127 (2011) editorial
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Personal energy saving by lighting
By using energy-saving light bulbs Avoid 400kg of CO2 emissions over the lifetime of the bulb - and they last up to 10 times longer than ordinary light bulbs.
Energy efficient lighting elements
Let the light shine in!Decrease your CO2 emissions by making the most of natural light.
Intelligent lighting systems
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Project Background
Plan Why Advanced Engineering?
– Changing Economic Landscape– Competition and Malaysia’s Competitiveness– Socioeconomic Inclusion
How Monash Advanced Engineering will contribute to national development?
– Development to Malaysia’s Innovation Ecosystem– Transformation of traditional Sectors to be K-driven and Globally
Competitive – Inclusive Innovation and Socioeconomic Strategy
National Key Economic Area (NKEA) - Entry Point Projects (EPP)– 3 EPPs under Light Emitting Diode
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ETP presentation for Electronics and Electrical/web page 19.10.2011
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Our target
Light Emitting Diode (LED) lighting
Mercury free Extended lifespan (10,000 hours)
Operational costs of LED lamps – 1.21 times less than fluorescent tube– 1.62 times less than compact fluorescent lamp– 6.46 times less than incandescent bulb
Political push toward LED – how to get consumer pull?
Health issues: blue light, flicker
N. Khan, N. Abas / Renewable and Sustainable Energy Reviews 15 (2011) 296–309
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Expectations for SSL and OE
One of key enabling technologies for industry
The actual use of intelligent lighting in final markets is still limited, but shows a strong potential growth
LED will account for 80% of lighting sector revenues by 2020
Much is expected from OLED lighting, as this technology offers interesting characteristics on colour, energy saving and manipulation
Europe is putting much effort to OLED – need to be competitive
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Technology
Needs from industry Driver (electronics controlling the LED’s) design
New material and methods for producing white light
Improving the color rendering of SSL
Increase the market pull for LED
Need for new material targeting performance enhancement
Better components, device integration and system architectures
Sustainable manufacturing methods and platforms
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Intelligent lighting systems
Increase flexibility to lighting applications
Reduce costs and timescales on SSL fixture and systems level
Connect lighting to its environment and digital networks
LED lighting efficacies of 200 lumen/Watt
Adding intelligence 30 – 50 % more energy can be saved
SSL contribute to the health and well-being of the total population
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LED technology Use of novel technology -> smooth lighting
Modify white light –> color rendering and avoid risks to the eye
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Driver design - Electronics for the lighting system, may be comlex
- How to measure quality and durability of driver electronics
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Organic Electronics
- semiconductor -> organic material
- better recyclable
- environmental friendly
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Organic electronics
Conductive polymers, plastics or small molecules (carbon-based) Products are thin, cheap, lightweight, and flexible Novel sensory applications Global market value of OLAE: €1 bn 2010 - €200 bn by 2027
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Organic LED – OLED
Possibility to large area electronics
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Applications – Medicine Brain surgery
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Applications Sleep and chronobiological research and applications
– Schools, car industry, . . .– Monash Australia, Harvard Medical School
Cool white keep awake, warm white before sleep – intelligent control
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Automotive industry
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Production Technology - Organic Electronics
- Low cost, high volume, high throughput
- Shorten the way from lab to production
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Economical and Social aspects Improving public safety
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Impact to the Malaysian economy
Issues in public penetration of this new technology
- Cost of lighting, well being, recyclability, political decisions
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The Project
Materials and Organic Electronics Intelligent Lighting
Driver Design
Novel Applications
Production technology
ENERGY EFFICIENCY SOCIOECONOMIC INCLUSION
ENVIRONMENTAL SUSTAINABILITY
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Cooperation ECSE, Chemical Eng, Mechanical Eng, Mechatronics Eng
Multidisciplinary project with all Schools at Sunway Campus
Malaysia:
– USM• Nano-Optoelectronics Research and Technology Laboratory• Dr Ng Sha Shiong
– UKM• Institute of Microengineering and Nanoelectronics (IMEN)
– Organics and Printed Electronics Group
– Research institutes: MIMOSA – searching common topical field– industry DSEM, ItraMAS, LEDVision, QAV Technologies
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International cooperation
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Infrastructure at Monash
- Basic infrastructure at Monash Sunway - Scanning Electron Microscopy (SEM)
- Access to Monash University Australia
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Access to Infrastructure from leading centres of excellence
Nano-optics lab & clean room, UEF, Finland
Spectral color science lab, UEF, Finland
Visual Perception and Cognition lab,
TUT, Japan
Waterloo Institute for Nanotechnology, UoW, Canada
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Infrastructure to build Organic electronics lab, clean room
Lighting lab
Photonics lab
Electronics design lab
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PeopleChief of Program
Professor Jussi Parkkinen
- 75 articles in scientific journals and book chapters
- over 130 conference articles
- supervised 20 PhD and 90 MSc theses
- leader of a number of academic and university – industry cooperative research projects and consulted with Nokia, Finland; DENSO, Japan; Samsung, Korea; UPM, Finland; WinGlobal, Taiwan, etc.
- two university spin-off companies founded from his research laboratory
- experience on academic leadership from all levels up to DVC
- Fellow of the International Association for Pattern Recognition34Centre for Green Electronics
PeopleProject leader Intelligent SSL
Dr. Kuang Ye Chow, Senior Lecturer
- 10 international journal and 36 international conference articles
- wide experience in industrial cooperation in Malaysia, Western Digital, Texas Instruments, Elid, Flextronics, British Telecom Multimedia, etc.
- since 2006 continuous flow of research grants both Malaysian and abroad
- several awards and distinctions from Malaysia and abroad
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PeopleProject leader Organic Electronics
Dr. Chai Siang Piao, Senior Lecturer
- 44 scientific journal and 19 int’l conference articles, 2 patents
- Research Strength Leader for Chemical and Sustainable Process Engineering (CSPE), MONASH University
- Visiting researcher INSD-institute, Osaka University, 2010
- editorial board member, International Journal of Technology and Applied Science (IJTAS)
- PhD and MSc student supervision
- since 2003 continuous flow of research grants
- several awards and distinctions from Malaysia and abroad
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PeopleProject leader Driver design
Dr. Tan Chee Pin, Deputy Head of School (Research)
- 18 scientific journal, 37 int’l conference articles, 1 book, 4 book chapters
- MOHE, Fundamental Research Grant Scheme grant 2010
- Associate Editor for American Control Conference 2012
- peer reviewer for scientific journals
- PhD and MSc student supervision
- several awards and prizes
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Some awards obtained by project leaders 2010 Pro-Vice-Chancellor's Award for Excellence in Services (Dr Kuang)
2007 ASEAN Virtual Instrumentation Applications Contest Honorary Mentions (Dr Kuang)
2000 Best Overall Performance Award from the Department of Electrical Engineering, University of Southampton (Dr Kuang)
2010 PVC’s Award – Research category (Dr Chai)
2009 Gold Medal: International Trade Fair – Ideas-Inventions-New Products – Nuremberg (iENA) (Dr Chai)
2005 Gold Medal: 33rd International Exhibition of Invention, New Techniques and Products of Geneva (Dr Chai)
2006 Pro-Vice-Chancellor’s Award for Distinguished Teaching (Dr Tan)
2007 Pro-Vice-Chancellor’s Award for Research Excellence by Early Career Researchers (Dr Tan)
28th February 2011Presentation title 38
People Professor Gamini Herath, School of Business
Dr. Joel D. Moore, School of Arts and Social Sciences
Dr. Saravanan Muniyandy, School of Medicine
Dr. Simon Eggert, School of Information Technology
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International collaborationSpectral Color Science lab
University of Eastern Finland, Finland
Professor Timo Jaaskelainen
- over 150 refereed scientific articles
- member of EU Photonics 21 foresight group, member of Finnish Academy of Science and Letters
- led a number of university – industry cooperation projects with Nokia, paper industry, lighting industry, etc.
- consulting several companies, founder of five university spin-off companies, Chair of the Board at Nanocomp Ltd
- Will visit Sunway campus in December
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International collaborationNano-optics lab & clean room
University of Eastern Finland, Finland
Professor Jari Turunen
- 228 international journal articles, 2 books, 25 invited papers and presentations, 13 edited volumes and feature issues
- Fellow of the European Optical Society, Topical Editor JOSA A, program chair in several optics conferences
- founder of two university spin-off company
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International collaborationVisual Perception and Cognition lab
Toyohashi University of Technology, Japan
Professor Shigeki Nakauchi
- > 120 refereed scientific publications
- led a number of university – industry cooperative projects with Hamamatsu Group, Sumitomo Electric, etc.
- Head of VPAC laboratory and Advisor to the President of TUT
- Will visit Sunway Campus in February
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International collaborationHubert Curien Lab
University of St Etienne, France
Professor Alain Trémeau
- (since 2005) 32 int’l scientific articles
- invited presentations in international scientific and educational events
- Head of research team: Color Content-Aware Image Processing
- Leader of the EU Erasmus Mundus international MSc program, CIMET
- several years experience of teaching in international settings
- Supervised a number of PhD students, also internationally cotutelle
- Will visit Sunway Campus first half 2012
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International collaborationUniversity of Waterloo, Canada
Waterloo Institute for Nanotechnology, Department of Chemical Eng
Professor Michael KC Tam
- more than 200 scientific journal articles
- research interest e.g. nano-structured systems from templating process, associative polymers for environmentally friendly coatings, and microscopic and macroscopic properties of self-assembly systems
- Adjunct Professor at the Monash University Sunway Campus
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Outcome Centre of Green Electronics, which brings excellence in research and
teaching and is a key player in the innovation ecosystem on SSL and OE
Knowledge sharing– Development of student internship and industrial placement
knowledge sharing– R&D workshop – a multidisciplinary unit, problems from industry
Co-operation and collaboration with leading international centres of excellence in the field (partner in EU funded CIMET program)
Curriculum will educate needed experts for industry in SSL and OE
Special courses for people in industry
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Outcome Educated and skilled R&D personnel to the SSL and OE industry
Monash Sunway is investing to improve HDR education
In year 2011 since January 1st, the number of HDR students on Monash Sunway have increased as follows
• MSc students 13 -> 20• PhD students 11 -> 20
Projected numbers for MSc- and PhD-students in the project are
2012 2013 2014 2015 2016 20172018
MSc 8 15 15 15 15 15 15PhD 15 32 55 55 53 45 45
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An example or recent outcomes Since 2007 Dr Chai has over 30 scientific journal articles on carbon
nanotubes. As consequence of this research:
– Gold Medal International Trade Fair – Ideas-Inventions-New Products Nuremberg (iENA) 2009: Cost effect production of high quality multi-walled carbon nanotubes
– Patent: Abdul Rahman Mohamed and Siang-Piao Chai. A Process for Producing Carbon Nanotubes (CNTs). (International publication number: WO 2010/059027 A2). (PCT application) public May 2010
– Effect to education: Final Year Projects and lectures on CHE2165 – Bio-Nano Engineering
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An example or recent outcomes Dr Kuang has an extensive experience of cooperation with Malaysian
companies. As influence of this to research and teaching– M.S.Ong, Y.C.Kuang, P.S.Liam, M.P-L.Ooi: Multisine with Optimal Phase-Space Uniformity for
ADC Testing. IEEE Transactions on Instrumentation and Measurement (in press)
– M.P.-L.Ooi, E. K.J.Sim, Y.C.K.uang, S.Demidenko, L.Kleeman, C. Chan: Getting More from the Semiconductor Test: Data Mining with Defect Cluster Extraction. IEEE Transactions on Instrumentation and Measurement, Vol. 60(10), p3300-3317, 2011
– M.S.Ong, Y.C.Kuang, M.P-L.Ooi, S.Demidenko, P.S.Liam: Optimal Dual-Tone Frequency Selection Algorithm for ADC Frequency Domain Dynamic Tests. IEEE Transactions on Instrumentation and Measurement, Vol. 60(5), p1533-1545, 2011
– Supervision: MEngSc (research) Optimal Excitation Signal Design for ADC Testing, 2011
– Lectures ECE4033 – Industrial instrumentation and measurement technologies
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Socio-economic implications
• This research project on lighting will generate
• Energy benefits • a. generate efficient lighting • b. minimize energy use in lighting)• Economic benefits • a. lower costs of energy to in the residential and infrastructure
sector in Malaysia • b. increase efficiency of business and profitability of industry • c. create market potential nationally and globally
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Socio-economic implications
• Social benefits a. improve lighting in streets can reduce crime rateb. improve quality of life of householders c. improve accessibility to cheaper energy sources to
poorer sectors of the Malaysian community
• Environmental benefits
a. energy saving b. reduced gas emissions c. enhanced shelf life of energy equipment
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Summary Novel Technology and Engineering form the core of the Centre
Will be organized to support whole innovation ecosystem
Encourage spin-off’s and SME’s
Socioeconomical inclusion an important viewpoint
Two steps
– Short term: develop and use the current technology efficiently
– Long term: develop new organic technology for Solid State Lighting and organic electronics
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