Green ElectronicsAn advanced engineering project

School of EngineeringMonash University Sunway Campus15 December 2011

I. Why Green Electronics?A. ETP: Define national priorities & NKEA in Electronics & ElectricalB. Global dynamics: Green Electronics will be next generation in E&E

sectorC. Social and economic impact on the Malaysian manufacturing sector

and GDP D. Outcomes

II. ChallengesA. Challenges in materials, processes, products, and systemsB. Require multidisciplinary approach - collaboration

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Presentation Plan (1/2)

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Presentation Plan (2/2)III. Research projects under “Green Electronics”

1. Intelligent lighting 2. Organic electronics3. Electronics driver design4. Novel applications5. Production technology

IV. Why Monash Sunway?– Leading research institution in the region– Multi- disciplinary collaboration across engineering, medicine, social– Multi- parties collaboration: public, private, industries, international– Able to access to world-class facilities and infrastructure– Meeting the manpower needs of the country

Appendix: Facilities, People, and More on the Projects

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• ETP (Economic Transformation Program) – define 12 national prioritieso NKEAs – Electronics & Electrical, and in Education

• Electrical & Electronics: glorious days in 1990s but loosing competitiveness to other countries as China and Taiwan:

o Globalization with MNC shifting to low-cost regionso Lack of skilled manpower (engineers, designers, researchers etc.)o Lack of IPs - owned technologies in the sector

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I-A. NKEA in Electronics & Electrical

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I-B. Green electronics: next generation in E&E sector

Challenges and Concerns for the 21st century:– High priced energy, – Depleting resources, – Increasing pollution in environment and carbon emission,– Increasing population (7 billion on 1 Nov 2011 and still counting),– Demand for development from aspiring nations for high income

Development consideration: – Sustainability– Environment

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I-B. Green electronics: next generation in E&E sector

Green electronics: solid state lighting & organic electronics– Consumption by lighting: 12 % of all energy & 20 % of electricity– Green electronics: decrease in climate change and pollution– Green electronics: saving in energy and resources– OLAE: Organic and Large Area Electronics

International push– EU 7 Billion euro by 2020 in photonics (include SSL and OLAE)– Japan and Korea leading display technology (LED, OLED)

• Korea’s goal “World’s top 3 photonics industry in 2015– Taiwan and Singapore, increasing support for SSL research– China

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Green electronics provides another window of opportunity

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New Growth Sector

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Advanced Engineering Project on Green Electronics – economic (GNI) and social (job) impact to the E&E NKEA– contribute to the Vision 2020 goal for Malaysia

OLAE market estimated RM 1 trillion by 2027 (source: IDTechEx). Conservative share (5%): RM33 billion can be developed in 2020 Job creation: 33 000 to 66 000 (RM 0.5 to 1m for skilled worker) Technology at emerging stage

– viable and less risky entry point – Window of opportunity 5 to 10 years.

Jump start: strong governmental support critical

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I-C. Social & Economic Impact

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I-D. Outcomes

Project will contribute NKEA Edu– EPP9: Building an advanced engineering, science and innovation discipline cluster: To generate knowledge (e.g. publications) To develop critical Malaysian- owned technologies (patents & IP,

process, design, product etc.) -> spin-off companies To provide skilled manpower (PhD, Masters, B.Eng) To foster multi- disciplinary collaborations among universities

(public & private), industries (local & MNC), and researchers (Malaysia & international).

To lay the foundation for a leading Malaysian Centre of Excellence in Adv Eng

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K+P MOT Sector GNI Job

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Challenges for the Industry & Potential Research Area : Require more sophisticated electronics controlling the SSL. New material and effective methods for producing white light Improving the color rendering of SSL Introducing a more cost-effective SSL, intelligent device networks Need for novel materials and processes for performance enhancement in OE Better components, device integration, and system architectures Sustainable manufacturing methods and platforms in OE

Project details are attached in Appendix.

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II-A. Challenges

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Multi- Disciplinary Collaboration at Monash: – ECSE- led, with all disciplines in School of Engineering– Involving all Schools (IT, Sci, Medicine, Business, A&SS) at MUSC– Draw upon expertise and facilities at Monash Clayton Campus

Private & Public Institutions Collaboration: – USM / Nano-Optoelectronics Research and Technology Lab - Dr

Ng Sha Shiong – UPM / Faculty of Engineering – Professor Mohd Adzir Mahdi– UKM/ Institute of Micro-engineering and Nano-electronics

(IMEN) - Organics and Printed Electronics Group

Access to multi- platform facilities

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II-B. Collaboration

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• Collaboration with local Industrieso Local companies: DSEM, ItraMAS, LEDVision, QAV Technologieso Local- based MNC: to be advised

• With international Partnerso Nano-optics lab & clean room, UEF, Finlando Spectral color science lab, UEF, Finlando Visual Perception and Cognition lab, TUT, Japano Institute for Nanotech, Univ of Waterloo, Canada

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II-B. Collaboration

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III. Research projects: NKEA E&E plan

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MUSC Research Focus

MUSC Research Focus

: NKEA E&E Plan

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Our target

MUSC Research Focus

MUSC Research Focus

: NKEA E&E Plan

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III. Research projects: Centre for Green Electronics

1. Intelligent lighting

2. SSL Electronics

3. Organic Electronics

4. Production technology

5. Novel applications

Environmental and social sustainability as well as economical feasibility are cross sectional topics over projects

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Organic Electronics

Intelligent Lighting

SSL Electronics

Novel Applications

Production technology

Socioeconomic InclusionEnvironmental sustainability

Centre for Green

Electronics

Energy efficient and long life time electronics

Activity and behavior guided lighting

Connected to Intelligent network

Car lighting to prevent accidents

Improve well-being by right lighting

Large area electronics

Flat panel lighting

Printing technology for electronics

Efficient and color rendering SSL

o Monash Engineering is ranked very high across the globe, and the highest among all universities with campuses in Malaysia.

o Multi-disciplinary collaboration with public institutions and local industries ensures the project remain relevant to the nation.

o International collaboration with Monash Eng and multi- parties researchers in Europe and Asia to ensure the project remain cutting- edge.

o In consistent with the School’s vision to be the top engineering school in Malaysia, and to develop an Advanced Engineering Institute (AEI) at MUSC.

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Universities with University Eng & IT Engineering Subject Ranking 2011 – Top 200 RemarkMalaysia campus QS 2011 QS 2011 Chem Civil Elec Mech CampusCurtin 258 162 N.R 101-150 N.R N.R 1999

Monash 60 57 47 36 35 49 1998Nottingham, UK 74 111 151-200 101-150 101-150 101-150 2000Swinburne 401-450 384 N.R N.R N.R N.R 2000Manipal, India N.R start in 2011

IV. Why Monash Sunway?

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To be created New solid state lighting (SSL) and organic electronics research

infrastructure• access for national participants

Educate workforce for R&D, MSc’s and PhD’s Produce scientific publications into high quality journals and IP

Develop the national innovation ecosystem in SSL

Characteristic activity Close collaboration with national universities

Close collaboration with Malaysian industry: Public Private Partnership

International collaboration with leading laboratories

Research and

innovations which have

impact to Malaysian

economy

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Serving the Nation !

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Appendix A: Facilities:The Open Facilities being built and to be builto The Electron Microscopy Unit (EMU) o Organic electronics lab, clean roomo Intelligent Lighting labo Photonics labo Electronics design labo Bio- sensor lab

Access to Facilitieso Facilities at Public Universitieso Testing faculties in industrieso Infrastructure Platform at Monash University

Clayton Campus

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Appendix B: People

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Professor Jussi Parkkinen: Currently Head of ECSE.

• Published 75 journal article, and 130 proceedings• 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.

• Entrepreneurship: 2 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 Recognition

MUSC/School are committed to source the best talent in Malaysia to lead the project.

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PeopleDr. Kuang Ye Chow, ECR in Intelligent SSL38 publications, 2 FRGS grants holder, 4 PhD/M.Eng. Extensive collaboration with industries in Malaysia, incl. Western Digital, Texas Instruments, Flextronics, British Telecom Multimedia, etc.

Dr. Chai Siang Piao, ECR in Organic Electronics / Materials44 journal papers and 19 proceeds, 2 patents2 FRGS, and 1 LRGS (as project leader), 4 PhDResearch Strength Leader for CSPE

Dr. Tan Chee Pin, ECR in Driver design18 journal papers, 42 proceedings, 1 FRGS, 4 PhDDeputy Head of School (Research)

MUSC ECR – Future Leaders of Research in Malaysia

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People – collaborators

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Multi- Disciplinary collaboration: Professor Gamini Herath, School of BusinessDr. Joel D. Moore, School of Arts and Social SciencesDr. Saravanan Muniyandy, School of MedicineDr. Simon Egerton, School of Information Technology

International Partners from other Research Centres:Professor Timo Jaaskelainen, Univeristy of Eastern Finland, FinlandProfessor Shigeki Nakauchi, Toyohashi University of Technology, JapanProfessor Alauin Tremeau, University of St Etienne, FranceProfessor Michael KC Tam, University of Waterloo, Canada

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Leading Researchers: 5 Research Professors in the field as Project Leaders via Monash Talent Enhancement Scheme (TES)

PDF Centre: 15 Postdoctoral Research Fellows (5 in each project)

Postgraduate students – Monash Higher Degree Research (HDR) programs (Masters and PhD), and projected number of HDR students at the CGE:

2012 2013 2014 2015 2016 20172018

Master 8 15 15 15 15 15 15PhD 15 30 60 60 60 60 60

A training Centre for industries, universities, and research institutes through regular workshop, conferences for latest technologies in the sector.

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People – Attract talents and manpower training

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Appendix C: Project 1: 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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Project 1: Intelligent Lighting Smooth lighting – glare free

Modify white light – color rendering and avoid risks to the eye

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Project 2: SSL Electronics

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New and innovative electronics architecture that enhance quality and durability of driver electronics

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Novel Materials: =>• organic – better recyclable• environmental friendly• atom-size thickness

Novel Process: =>• Low cost, high volume, high

throughput; turnaround time

Project 3: Organic Electronics

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Project 3: Organic Electronics

Conductive polymers, plastics or small molecules (carbon-based)

Products are thin, cheap, lightweight, and flexible Organic LED – OLED: for curved and large area panel Applications in Novel sensory, e.g. chipless,

printable… RFID in notes

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Project 4: Production Technology – OE

- Low cost, high volume, high throughput

- Shorten the way from lab to production

- Thin, cheap, lightweight, and flexible

33Centre for Green Electronics

Project 5: Novel Applications

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in MedicineBrain surgeryDisposable bio- sensors

In Automotive and Accident ResearchIntelligent lighting to reduce accidents

in Health and Well-beingSleep and chrono-biological research and applications

– Schools, car industry, . . .– MUA, Harvard Medical School

Cool white keep awake, warm white intelligent control

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Cross sectional topic: Economic & Social Impact Improving public safety

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Impact to Malaysian economy

Issues in public penetration of this new technology

- Cost of lighting, well being, recyclability, political decisions

Centre for Green Electronics