Oct. 2016

Founding Story:

In order to accelerate the development of science and technologies such as semiconductor, optoelectronics and system integration in southern Taiwan, the government of Tainan County invited National Chiao-Tung University (NCTU) to establish a new campus to cultivate highly professional graduates to satisfy the needs of the rapid growing industry, and in the meanwhile, expand the industrial cluster and to build a brand new science and technology corridor in southern Taiwan. Hereby, the NCTU Tainan Campus was established on August 2008, provided 3 institutes (including PhD program) and 1 degree program comprising Photonics System, Lighting and Energy Photonics, Imaging and Biomedical Photonics and Degree Program of Photonic Technology.

^Contents

• ^{History.......................................................2}
• ^{Endowment……….....................................3}
• ^{History of Executive Administration………4}
• ^{Organization Structure..............................4}
• ^{Development and Achievement.................5}
• ^{Research Center & Common Laboratory...6}
• ^{Scholarship and Contest…………………9}
• ^{Campus Life….……………………………10}
• ^{Research & Faculty…………….............. 12}
• ^{Laboratory…………………………........... 16}
• ^{Statistic……………………..………………36}
• ^{Events……………………………………...37}
• ^{Vision……………………………………….38}
• ^{Dormitory Plan…………………………….39}
• ^{Monument……………..…………………...41}

1

The former mayor of Tainan County Huan-Chih Su and the successive presidents of NCTU Chung-Yu Wu, Nan-Hung Kuo, Chi-Fu Den and Chun-Yen Chang, together with alumni and local celebrities participated in the ceremony to celebrate the new milestone of Tainan campus.

• Groundbreaking Ceremony (02/16/2008)

History

• Endowment Ceremony of Chi Mei Building (08/22/2008)

The chairman of Chi Mei Optoelectronics Corporation Liao Jinxiang, the general manager Jau-Yang Ho and former presidents of NCTU Chun-Yu Wu, Chun-Yen Chang, alumni Ho-Ming Huang, Chin-Yung Shu, George Huang, Chin-Yang Lee, Chih-Hsiang Wei, Hsiang-Feng Chung together witnessed the memorial moment.

• Topping Out Ceremony of Chi Mei Building (03/01/2009)

More than 120 passionate alumni took a campus tour by bike, visiting Taipei, Chubei (Liujia), Kuang-Fu, Bo-Ai and Tainan campuses. By then, Chi Mei Building was about to complete the main structure, and together they witnessed the topping out.

• Opening Ceremony of Chi Mei Building (11/09/2009)

• Inauguration of North Entrance (12/14/2013)

Attendee deputy mayor Her-Jiun Sheu, vice president of NCTU Han-Ping David Shieh, former presidents of NCTU Chung-Yu Wu and Chun-Yen Chang, alumni Chin-Yang Lee, Hsiang-Feng Chung, Chia-Hsun Lin, Chang-Cheng Wu, professors Shu-Hsia Chen Shin-Horng Chen and Ming-Dou Ker.

2

Attendee (from left to right) Chin-Yang Lee, Stan Shih, Shu-Hsia Chen, Nan-Hung Kuo, Liao Jinxiang, Huan-Chih Su, Wen-Long Shi, Chung-Yu Wu, Chun-Yen Chang, Ching-Lai Sheng and Chien-Cheng Lin.

3

Endowment

3

1. Donation from Tainan Country (8.2 hectare)
2. Chi Mei Building donated by Chi Mei Corp.
3. Laboratory equipment and classroom installment sponsored by alumni and enterprises

(08.2009)

(02.2011)

History of Executive Administration

Organization Structure

4

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College of Photonics

Dean

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Tainan Campus

Director

NCTU

President

(11.2015)

(08.2016)

• Team of Academic and Student Affairs (Director & Convener)
• Team of General and Funding Affairs (Director & Convener)
• Team of R&D and Globalization (Director & Convener)

Institute of

Photonic System

(Director)

Institute of Lighting

& Energy Photonics

(Director)

Institute of Imaging &

Biomedical Photonics

(Director)

Degree Program of

Photonic Technol.

(Director)

Green Energy &

Optoelectronics

Interdisciplinary

Research Center

(02.2012)

(08.2014)

Development and Achievement

The College of Photonics pursuits outstanding research and educating including semiconductor optoelectronics device, optical detection, thin film technology, nano-electronic device, organic light-emitting materials, liquid crystal technology, biomedical imaging and signal processing, cutting-edge optical communication system and green energy technology. The college now includes 22 PhD students, 210 master students, 35 faculty members, 5 faculties with joint appointments and 5 adjunct faculties.

In research, the college devotes to X-Photonics cooperation to keep up with the nature of modern research, each faculty is funded more than 1.7 million NTD in average, publishes outstanding research articles on famous journals and conference. Besides, the collaboration with Chi Mei Medical Center in biomedical sensing and signal processing is funded 3 to 5 millions NTD every year in average; Prof. Kei-Hsiung Yang was granted 40 million NTD for 2 years by Ministry of Economic Affairs to develop wide-field high-resolution digital medical X-ray detectors, and it’s now industrial manufactured; Prof. Jui-Wen Pan was also granted by Ministry of Economic Affairs to develop low-glare high-efficiency LED lighting system; Moreover, the college has signed a talent cultivation contract with Innolux Corp. since 2015, funding 2.4 million NTD for 3 years.

In collaboration, the college has aggressively seeking for international partners. Prof Chun-Ting Lin collaborates with Corning, USA on 60 GHz radio-on fiber system and 6^th generation mobile network; Prof. Cheng-Huang Kuo collaborated with BASF, Germany on MOCVD technique of GaN-based LED; Prof. Wei Lee is granted by Russia-Taiwan bilateral research collaboration to study nano-structure of photonic crystal and optoelectronic device; Besides, Prof. Chia-Ming Liu of UCLA has led 7 master graduates and 1 PhD to carry out state-of-art microscopy and biomedical imaging research. In 2016, Prof. Jui-Wen Pan assists to sign the bilateral master program with Institute of Optics, University of Rochester, providing opportunities to meet international standards with the top institution.

In education, the college provides several facilities for instruction and research, including thin film laboratory, computer classroom, metrology laboratory, chemical laboratory, material processing laboratory, optical laboratory and etc. Therefore, the students are able to undertake diverse knowledge and exceptional instruction both in class and research. The College of Photonics is graded excellent in the comprehensive survey of higher education of the Ministry of Education

5

Research Center & Facility

• Joint Biomedical Laboratory

We have joined the research project of Biomedical Electronics Translational Research Center of the main campus, and aggressively cooperated with medical institutes such as Chi Mei Medical Center.

• Green Energy and Optoelectronics Interdisciplinary Research Center

To promote the industry-academia cooperation on Tainan campus, cutting-edge research and education have been established, Meanwhile the collaboration with Academia Sinica is reinforced. In terms of green energy, optoelectronics, and system, the college provides outstanding environment for the training and learning of photonics technology.

Rapid Thermal

Annealing System

Tube Furnace

• Thin Film Laboratory (R120B)

• Computer Classroom (R224)

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• Metrology Laboratory (R331)

Optical Measuring Instruments

White Light

Interferometer

Ellipsometry

Fourier Transform

Infrared Spectrometer

Metallographic Microscope

Absorption/Transmission/Fluorescence Spectrometer

Material Analysis Instruments

Differential Scanning

Calorimeter

Scanning Electron

Microscope

Scanning Probe

Microscope

Thermogravimetric Analyzer

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Wet Bench

Exposure Unit

Spin Coater

Glove Box System

• Material Processing Laboratory (R442)

• Chemical Laboratory (R441)

• Optical Laboratory (R543)

8

Scholarship and Contest

The students are encouraged to apply for scholarship. The available scholarship includes The Phi Tau Phi Scholastic Honor, Academic Excellence Award, Entrance Scholarship, Outstanding Graduate Award, Chi Mei Scholarship, Chroma Scholarship and etc. The students are also urged to participate in the National Intercollegiate Embedded System Competition, Texas Instruments Innovation Challenge Taiwan DSP/MCU Design Contest, Long Term Smile Entrepreneurship Competition and etc.

Furthermore, the Entrance Scholarship for Tainan Campus is to prompt excellent student to enroll in master program. The college also obtains scholarship from former president Chun-Yu Wu for 150 thousand NTD each year, named as Mo-Ching Wu Scholarship, especially for qualified students and graduates on Tainan Campus.

Scholarship Awarding

Contest Awarding

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Campus Life

Existing Dormitory

Sport Center

Library

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The College of Photonics now has 21 full-time faculty and about 320 graduates (40 PhD students and 280 master students). Most of the students reside in nearby village while part of the faculties and PhD students are lodging in the guest house in Chi Mei Building.

The Tainan Campus is equipped with sport center, library, conference room and international conference hall. The sport center is around 170 square meter, provides 2 stationary bicycles, 3 cross trainers, 2 table-tennis tables, 1 pool table. The library has more than 1500 collections. Faculties and students have full access to the library on main campus through online reservation. Classroom 218 and conference room 220 are both equipped with an high-resolution video conference system. Advantech international conference hall has a capacity of 250, fully equipped with facilities, is suitable for international event.

Culture and Creative Cafeteria

Shen Yuan Ji Shui, meaning the unexpected meet up between people and the community. The cafeteria adapts the local ingredients into bakeries and dishes to create cuisines with originality. The cafeteria also integrates culture and local spirits into the patented package of food container to create enchanted life. It is also a kind of culture and creative, to make a delightful aesthetic and practical living.

Advantech International Conference Hall

Video Conference Room

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Research & Faculty

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Support, Adjunct and Joint Faculty

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Novel OptoElectronic Lab.�PI: Dr. Chien-Chung Lin (林建中)

Research Topics:

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Major Achievements:

Novel Optoelectronic Laboratory (NOEL) focuses on the design, fabrication and measurement of new photonic materials and devices. Nano-scale device simulation, nano-particle enhanced photonic devices, and novel materials for new photonic applications are the recent efforts. Topics in highly efficient solar cells and light emitting diodes, and tunable microwave generation via semiconductor lasers are also investigated in this lab.

• Highly efficient gallium nitride based light emitting diode with nano-particles.
• Hybrid colloidal quantum dot enhanced light emitting diodes and solar cells.
• Epitaxial growth of indium nitride and its application to long-wavelength photodetection.
• Modeling of nano-scale solar cells.
• Tunable and narrow-linewidth microwave generation via integrated semiconductor lasers.

Facilities

Research

Novel OptoElectronic Lab: http://web.it.nctu.edu.tw/~noel/Introduction.html

Tel: +886-6-3032121 ext. 57770; Fax: +886-6-3032535

E-mail: chienchunglin@faculty.nctu.edu.tw

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Microwave Photonics Lab.�PI: Dr. Chun-Ting Lin (林俊廷)

Introduction:

• Microwave photonics is an area that studies the interaction between microwave/THz-wave and optical waves for microwave signal generation, distribution, control and processing by means of photonics.
• Moreover, the broadband and low loss capability of photonics (optical fiber) has led to great interest in their use to generate, distribute, control and process microwave signals.
• Application areas include Low phase-noise microwave, mm-wave and THz generation, broadband optical/wireless system, all-optical processing of microwave signals (up-conversion, filtering, mixing, and so on).

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Current Research Interests:

• Develop wireless data rate exceeding 50 Gbps at millimeter-wave and THz-wave optical/wireless system by utilizing DSP technology, including time/frequency domain equalizer, OFDM, I/Q imbalance compensation, bit loading, and MIMO technologies.
• Other interesting topics in optical/wireless systems by using DSP technologies include polarization multiplexing in direct-detection OFDM system, multi-core/multi-mode MIMO system, nonlinear distortion compensation, low-sampling-rate receiving scheme, down-conversion scheme with envelope detection, and integration of optical and wireless MIMO system..

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Microwave Photonics

Tel: +886-6-3032121 ext. 57752; Fax: +886-6-3032535

E-mail: jinting@mail.nctu.edu.tw

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Major Achievement:

The major research achievement is mainly produced by optical design, optical

assembly and optical testing. We use the optical software (Code V, Zemax,

Light tools, ASAP)to design the optical system then do the optical testing for

optical system. The major research result cover may optical system fields such

as LED pico-projector , LASER pico-projector, convert lens for the projector

system, conversion lens for Compact Camera Modula testing, Backlight system,

GaN LED light extraction. LED lighting system, Solar concentrator, Head Mound

Display, Capsule endoscope system, Speckle reduction for LASER system.

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Optical Design Lab.�PI: Dr. Jui-Wen Pan (潘瑞文)

Research Topics:

Wide converter lens for LED projector

• Imagining and non-imaging optical design
• Wave front technology for optical design and optical testing

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LED lighting with low glare effect

Optical design Lab.

Tel: +886-6-3032121 ext.57756,57769, 57825

Email: juiwenpan@gmail.com

Website: http://web2.cc.nctu.edu.tw/~odlab

Photonic & Semiconductor Lab.�PI: Dr. Zu-Po Yang (楊斯博)

Research Areas:

Fabricate & investigate semiconductors and photonic

Nanostructures and their applications, including solar cells,

Lighting, sensors, emerging areas, etc.

frontier areas

Product of amoeba

lighting

solar cells

Innovative devices, systems & papers

Semi-

conductors

Photonic structures

Amoeba’s food

We are developing X-Photonics as an amoeba!

Selected Publications:

Slanted n-ZnO nanorod arrays/p-GaN light-emitting diodes with

strong ultraviolet emissions, Optical Materials Express 5, p399

(2015)

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sensors

Go together

fabrication

material

properties

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MicroNano Imaging System Lab.�PI: Dr. Po-Sheng Hu (胡博琛)

Research Topics:

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Major Achievements:

MicroNano Imaging System laboratory (MNISL) has a multidisciplinary research environment. Currently efforts are dedicated to investigating dynamic events of vertebrate organs such as heart using lab-developed optical instruments, and synthesizing nanomaterial for biomedical and industrial application. In regard of vertebrate organs, development of imaging models that quantify dynamic properties of the organs is the core value of our work that help explore organs with different pathologies and abnormalities. In parallel, small quantity of nanomaterial are synthesized for biomedical investigation as well as green renewable energy applications.

SD-OCT PS-SHG STED

MNISL: https://sites.google.com/site/laboratorywebsite/

Tel: +886-6-3032121 ext. 57757; Fax: +886-6-3032535

E-mail: hu6@nctu.edu.tw

MNISL is a relatively new lab, and our success is rested upon construction of high speed imaging techniques and nanomaterial synthesis. In the past imaging techniques such as spectral-domain optical coherence tomography (SD-OCT), superresolution STED nanoscopy and polarization-sensitive second harmonic generation (PS-SHG) microscopy have been accomplished. We have successfully overcome optical diffraction that limits resolution of microscope with finest lateral resolution of 40nm. A number of progress of pathological complication such as tissue glycation and dermatological diseases were revealed using PS-SHG microscopy.

MNISL

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Optical Diagnosis Lab.�PI: Dr. Ming-Che Chan (詹明哲)

Selected non-invasive images from our published papers

[3D blood vessels, collagen, human skin, LC cells, polarizers, NL crystal,

IR card, multi-color two-photon fluorescence, vessels, resolution chart]

The goal of our lab is to develop various non-invasive and non-

destructive optical diagnosis technology and their uses on biomedical,

industrial, and other end applications. The core value of our lab is the

capability to build up a customized photonic system and find its possible

applications.

Research Topics:

1. Novel nonlinear microscopy and its applications

2. Optical coherence tomography and its applications

3. High speed diffused opt. spectroscopy/ Advanced confocal microscope

4. Ultrafast fiber lasers/ solid-state lasers/ fiber-opt. wavelength convertors

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21

R&D Experience:

Thin Film Lab.�PI: Dr. Jer-Shen Maa (馬哲申)

Areas of interest and activities include: epitaxial growth of Si, Ge, SiGe, GaN MOCVD, and GaN HVPE; dry etching technology of metals, oxide and Si; metal silicide technology, such as Ti, Ni, Mo, Ta and W silicides; RTP processes; CVD and PECVD deposition and metallization technology; thin film processes and characterization technology; direct wafer bonding, film transfer, Si film on glass and plastic, strained Si; ZnO films, Si nano particles and solution process; Ge thermal sensing and detector applications; in-situ TEM (and UHV chamber) study of the nucleation and growth of sputtered thin films; printing technology for TFT and solar cell application; vacuum technology.

He received Ph.D degree from University of Minnesota in Chemical Engineering and Material Science, where he carried out the pioneer work of sputtering experiments inside TEM to study the early growth of thin films under Hutchinson. He taught at Material Science and Engineering Department of Tsing Hua University in Hsinchu, where he collaborated with Professor Liu of Physics Dept. to initiate RBS study of silicides. During his tenure at David Sarnoff Research Center (RCA Labs), Princeton, NJ, he initiated the silicide program, introduced dry etching processes to pilot line of Solid State Division, and participated in various development programs in semiconductor processes. In Sharp Labs, Camas, WA, He introduced silicide process to Sharp Semiconductor, and worked on epitaxial growth, strained Si, wafer bonding, GaN HVPE and MOCVD, ZnO and Si nanoparticles, and printing technology. In National Chiao Tung Univ., his main activity is on MOCVD of compound semiconductor for high power applications. His recent interest also involves teaching the essential concepts of thin film and semiconductor technologies, on intellectual properties (especially on patents), and solar cell materials. He has more than 70 papers and 100 US patents.

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Research Topics:

Featured on the front cover of Journal of Materials Chemistry C

Flexible Device Lab.�PI: Dr. Hai-Ching Su (蘇海清)

1. Organic light-emitting materials
2. Power-effective organic light-emitting devices
3. White organic light-emitting devices for solid-state lighting

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Representative Publication:

​

J.-S. Lu, H.-F. Chen, J.-C. Kuo, R. Sun, C.-Y. Cheng, Y.-S. Yeh, H.-C. Su*,

K.-T. Wong, “Efficient solid-state white light-emitting electrochemical cells employing embedded red color conversion layers,” Journal of Materials Chemistry C, 3, 2802-2809, 2015.

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Organic Optoelectronic Materials Lab.�PI: Dr. Sheng-Hsiung Yang (楊勝雄)

Research Topics:

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Major Achievements:

The research topics of our laboratory include light-emitting materials (polymers and perovskite nanomaterials), metal oxide films and nanorod arrays (ZnO, TiO₂, WO₃…), organic/inorganic hybrid devices, and perovskite solar cells. The combination of materials and device fabrication is aimed to develop high-efficiency light-emitting and photovoltaic devices.

Selected Publications:

1. S. H. Yang, T. S. Lin, Y. Z. Huang, H. D. Li, and Y. C. Chao, “Synthesis of Hyperbranched Polythiophenes Containing Tetrachloroperylene Bisimide as Bridging Moiety for Polymer Solar Cells,” Polymer 2014, 55, 6058-6068.
2. P. Y. Chen and S. H. Yang, “Improved Efficiency of Perovskite Solar Cells Based on Ni-doped ZnO Nanorod Arrays and Li salt-doped P3HT Layer for Charge Collection,” Opt. Mater. Express 2016, 6, 3651-3669.
3. W. J. Huang, P. H. Huang, and S. H. Yang, “PCBM doped with fluorene-based polyelectrolytes as electron transporting layer for improving performance of planar heterojunction perovskite solar cells,” Chem. Commun. 2016, 52, 13572-13575.

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Lab. for Organic and Nano Electron Devices & Materials�PI: Dr. Chien-Wen Hsieh (謝建文)

Research Topics:

​

Major Achievements:

The group is centred on developing hybrid inorganic-organic materials system and novel engineering approaches toward high performance transistors and flexible, transparent optoelectronics. Interactions between heterogeneous materials and bottom-up assembly techniques to manipulate nanostructures are essential. The current study includes nanocomposite semiconductors for field effect transistors (FETs), charge transport in heterogeneous semiconductors ultra-sensitive polymer pressure sensors and non-conventional assembly and patterning.

We investigate the feasibility and mechanism of incorporating low-dimensional nanomaterials (i.e., nanotubes, nanowires, graphene) with organic conjugated polymers/molecules, for generating solution-processed FETs on flexible substrates. A new type of dielectric composites with enhanced responses in capacitance for highly sensitive pressure sensing is also conducted. The results reveal the potency and feasibility for next-generation flexible transistors and touching sensing applications.

onedm Lab: http://web.it.nctu.edu.tw/~onedm

Tel: +886-6-3032121 ext. 57797; Fax: +886-6-3032535

E-mail: cwh31@nctu.edu.tw

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Semiconductor Lighting Lab.�PI: Dr. Cheng-Huang Kuo (郭政煌)

Research Topics:

​

Major Achievements:

• Develop Epi-ready substrate:

PSS, GaN template, Free standing GaN, AlN template, AlN substrate

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• Nitride-based Material Epitaxy:

MOCVD, HVPE

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• Nitride-based Material Devices:

Micro LED, UV/Blue/Green LED

Semiconductor Lighting Lab. ：

Tel: +886-6-3032121 ext. 57798; Fax: +886-6-3032535

E-mail: kuoch@mail.nctu.edu.tw

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Green Energy and Photonics Lab. �PI: Dr. Der-Ray Huang (黃得瑞)

Research Topics:

Major Achievements:

• Green Energy System
• Photovoltaic & Hydrogen Energy
• Information Storage
• Optoelectronics Technology

• Prof. Huang has received many awards and honors including:

The Outstanding Sci-Tech Talent Award of Executive Yuan (1996), TECO

Technology Award (2000), Magnetic Technologic Medal by TAMT(2003),

Ten Outstanding Engineers (2001), Outstanding MOEA Project Leader

Award (2005), Outstanding Information Storage Award by TISA(2011),

Special Industry Contribution Award by TITA (2012).

• Paper Reviewer 8 international Journals such as IEEE Trans. Magnetics, JJAP, JAP, JMMM, IEEE Trans. Power, Mat. Chem & Phys., and others.
• Conference Co-Chair and Keynote Speaker for APDSC'06 (Aug. 2006), APDSC'08 (Dec.2008), APDSC'10 (Oct.2010), and APDSC'13 (Oct.2013),
• Conference Co-Chair for ISOM'14 (Oct. 2014) and ISOM'10 (Oct. 2010).
• Invited speaker for 20 international academic conference.
• Papers: (1)90 Journal Papers;(2)250 Conferences Proceeding Papers
• Patents: (1)139 awarded patents (82 cases); (2) patent pending:8cases

Solar

Tracking

System

Dye Sensitized

Solar Cell for

Low light Intensity

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Hydrogen

Purification

System

Fuel Cell

Applications

27

Laser Photonics Lab.�PI: Dr. Yu-Pin Lan (藍宇彬)

1. VECSEL：Integrate a solid-state laser technology and nanophotonics to develop a new light emitting source.

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• Renewable energy circle _ Solar laser：use solar power heating desalinated seawater to generate hydrogen and pump solid-state laser system to recover Mg.

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• Built-up the measured system for photoelectric device and materials.

Laser Photonics Lab:

Tel: +886-6-3032121 ext. 57788; Fax: +886-6-3032535

E-mail: yplan@nctu.edu.tw

Research Topics:

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Liquid Crystal Photonics Lab.�PI: Dr. Wei Lee (李偉)

Research Topics:

​

Major Achievements:

• Switchable and tunable photonic-crystal/liquid-crystal structures for optical communications
• Electro-, opto- and thermo-optical and dielectric properties of liquid-crystal devices
• Electrically and optically tunable metamaterial/liquid-crystal devices
• Energy-saving, multistable and fast-response photonic devices
• Biosensing and immunodetection by liquid crystal photonics

• Y.-C. Hsiao et al., “Highly sensitive color-indicating and quantitative biosensor based on cholesteric liquid crystal,” Biomed. Opt. Express 6(12), 5033–5038 (2015).
• J.-C. Huang et al., “Electrically switchable organo–inorganic hybrid for a white-light laser source,” Sci. Rep. 6, 28363-1–7 (2016).
• Y.-C. Hsiao et al., “Electrically active nanoantenna array enabled by varying molecular orientation of interfaced liquid crystal,” RSC Advances 6, 84500–84504 (2016).

Liquid Crystal Photonics Lab:

Tel: +886-6-3032121 ext. 57826; Fax: +886-6-3032535

E-mail: wlee@nctu.edu.tw

29

Adaptive Photonics Lab.�PI: Dr. Shean-Jen Chen (陳顯禎)

Research Topics:

​

Major Achievements:

Adaptive Photonics Laboratory (APL) combines optoelectronics, real-time signal and image processing, and optronic systems integration with ultrafast laser to focus on “Advanced Nonlinear Optical Microscopy” including fast optical sectioning, super-resolution microscopy for thick tissue, and all-optical histology via multiphoton induced laser ablation, and “Three-dimensional Photolithography” including the design and fabrication of special 3D microstructures, and high-throughput microfabrication.

The major research achievement is mainly produced by the state-of-art biomedical optoelectronics systems. We developed high-resolution multiphoton microscope with highest frame rate, and a high-resolution multifunctional ultrafast laser fabrication system, especially the application of fast 3D bioimaging and microfabrication in temporal focusing based widefield multiphoton excitation microscopy, it successfully breaks the current limitations of speed and resolution in biomedical nonlinear optical microscopy.

Adaptive Photonics Lab: http://apl.nctu.edu.tw

Tel: +886-6-3032121 ext. 57825; Fax: +886-6-3032535

E-mail: sheanjen@nctu.edu.tw

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Imaging Technology Lab.�PI: Dr. Kei-Hsiung Yang (楊界雄)

I. Obtained 74 US patents, published 88 journal papers

SID Fellow 2001, The Best Paper Award of SID2000.

II. 2017 plenary talk: Alignment Mechanisms

and Ionic Properties of LCDs, ACLC (Feb. 2017)

III. 2015 Technology Transfer: Development of Digital Medical Chest

X-Ray Detector (43cmx43cm, 2048x2048 pixels)(MOEA, Taiwan).

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Imaging Technology Lab:

Tel: +886-6-3032121 ext. 57840; Fax: +886-6-3032535

E-mail: gkhyang@gmail.com

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Research Topics:

Research Achievements:

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1. Yan-Jun Huang, Chung-Yu Wu, Alice May-Kuen Wong, Bor-Shyh Lin*, "Novel Active Comb-shaped Dry Electrode for EEG Measurement in Hairy Site," IEEE Transactions on Biomedical Engineering, vol. 62, issue 1, pp. 256-263, 2015.
2. Yu-Lin Wang, Jing-Sheng Hung, Lin-Yu Wang, Mei-Ju Ko, Willy Chou, Hsing-Chien Kuo, Bor-Shyh Lin*, "Development of a Wireless Oral-Feeding Monitoring System for Preterm Infants," IEEE Journal of Biomedical and Health Informatics, vol. 19, issue 3, pp. 866-873, 2015.
3. Hsien-Yi Wang, Cho-Han Wu, Chien-Yue Chen, Bor-Shyh Lin*, "Novel Noninvasive Approach for Detecting Arteriovenous Fistula Stenosis," IEEE Transactions on Biomedical Engineering, vol. 61, issue 6, pp. 1851-1857, 2014.
4. Jinn-Rung Kuo, Bor-Shyh Lin*, Chih-Lun Cheng, Chung-Ching Chio, "Hypoxic-state Estimation of Brain Cells by Using Wireless Near-infrared Spectroscopy," IEEE Journal of Biomedical and Health Informatics, vol. 18, issue 1, pp. 167-173, 2014.
5. Bor-Shyh Lin*, Ming-Jen Sheu, Ching-Chin Chuang, Kuan-Chih Tseng, Jen-Yin Chen, "Enhancing Bowel Sounds by Using a Higher Order Statistics-Based Radial Basis Function Network," IEEE Journal of Biomedical and Health Informatics, vol. 17, issue 3, pp. 675 - 680, 2013.

Development of Wireless Oral-Feeding Monitoring System for Preterm Infants

Non-invasively physiological sensing technology, development of wearable and wireless physiological monitoring devices, telemedicine/ Biomedical circuit and system design, biomedical signal and image processing.

Biomedical System Lab.�PI: Dr. Bor-Shyh Lin (林伯昰)

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Liquid Crystal Applications Lab.�PI: Dr. Shie-Chang Jeng (鄭協昌)

Research Topics:

• Liquid crystal physics and devices

nanoparticles in LCDs, LC alignment by nanostructures

• Flexible electronics

flexible LCDs, flexible photonics devices

• Energy harvesting

nano energy generator

• Optoelectronic Tweezers

LC droplets manipulation

Major Achievements:

• Controlling LC alignment by POSS nanoparticles and ZnO nanostructure films
• Bistable LCDs with silica-coated polyimide
• Black&White Cholesteric LCDs with nanoparticle aggregation
• UV-modified alignment film and LC lens applications
• Liquid Crystal Droplets Manipulated by Optoelectronic Tweezers

Flexible Displays

Liquid Crystal Applications Lab

Tel: +886-6-3032121 ext. 57830; Fax: +886-6-3032535

E-mail: scjeng@faculty.nctu.edu.tw

ZnO nanostructure

For LC alignment

LC droplets manipulation

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Nanophotonics Lab.�PI: Dr. Kuo-Ping Chen (陳國平)

Research Topics:

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Nanophotonics Laboratory (NPL) is focusing on the research of light and matters interaction in nanoscale. Plasmonics and metamaterials are the most important topics and have gathered great attention in recent years.

Our research will involve in:

• Nano-fabrications
• Spectra characterizations
• Nonlinear optics
• EM modeling
• Bio-sensing
• Green energy applications

On-going projects

Nanophotonics Lab: https://sites.google.com/site/nanophotonicslab518/

Tel: +886-6-3032121 ext. 57824; Fax: +886-6-3032535

E-mail: skpchen@nctu.edu.tw

High refractive index nanoparticles

Nanoantennas and tunable metasurfaces

Optical Tamm states/thermal radiation/sensor applications

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Biophotonics Sensing Lab.

PI: Dr. Yi-Chun Chen (陳怡君)

Research Topics:

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Biophotonics Sensing Lab: https://sites.google.com/site/yichunchen52/

Tel: +886-6-3032121 ext. 57821; Fax: +886-6-3032535; E-mail: chen52@nctu.edu.tw

1. Miniaturized optoelectronic devices for clinical and in situ exams.
2. Quantitative Fluorescence Spectroscopy and Microscopy
3. Cellular Physiolog by Advanced Microscopy Techniques
4. Photosynthesis Activities by Chl a Fluorescence Lifetime

Major Achievements:

Method for Measuring Real-time Kinetics of Chemical Reactions, ROC Patent I545313, 2016.

LED-Powered Fluorescence Lifetime Imaging Microscopy, Focus on Microscopy Conference 2016.

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Statistic

The alumni of the college of photonics were well-educated under the sophisticated training in their masters’ study. Since 2011, there are 100 graduates each years, including M.S. and PhD. The alumni are popular in the industry, the main hiring enterprise includes Taiwan Semiconductor Manufacturing Co., Ltd. (TSMC), Coretronic Corporation, Innolux Corporation, AU Optronics Corporation (AUO), United Microelectronics Corporation (UMC), Everlight Electronics Co., Ltd., Lextar Electronics Corporation and etc. There is also PhD graduates who works in Stanford as postdoctoral fellow.

The alumni are welcome to participate in the non-regular activities held by the college, such as baseball game and banquets, and share their valuable experience to the students.

Class of 2016

Class of 2011

Class of 2012

Class of 2013

Class of 2014

Class of 2015

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Events

Class of 2011 (09/2009)

Freshman Cup (10/2012)

Christmas Party (12/2012)

Inauguration Banquet (01/2013)

Stan Shih visiting (10/2013)

College Celebration 2013

College’s Voice (06/2014)

College Celebration 2015

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Vision

The College of Photonics does have strong and solid foundation, however, it is still distant from perfection. The goal was to model the innovation spirit of NCTU alumni, and build a co-evolution with Southern Science Park such as Stanford and Silicon Valley. Thus, enhancing the depth and width with industry, engaging with more scientific faculties to reach the critical threshold of clustering effect. In the end of 2015, Academia Sinica has announced the establishment of South branch, just next to NCTU Tainan Campus in the specific region of Tainan station of Taiwan High Speed Rail (THSR). In 2016, the government has also announced the project of Shalun Green Energy Science City, focusing on energy creation, energy conservation, energy storage and systems integration.

Under the temporal circumstances, the college takes chance to make contribution, including the 2^nd stage campus construction engineering, to devote innovative creativity to the industry and academy. The 2^nd stage campus construction engineering takes approximately 4 years, starting from May of 2015 to 2020. Based on the accomplished works, the strategy is to combine the industry with local environment and strengthen the ability of system integration and applications, to further develop a scientific project with prolonged industry life cycle. In the green energy system, the main project includes solar power system, renewable energy system and energy conservation system; In the system integration and applications, the college will emphasize on novel laser system and application, optoelectronics sensing and intelligent control, smart biomedical imaging processing, optoelectronics application in agriculture and fishery, expecting to create a sustainable environment with clean energy.

The college has now already started working on the preparation, including the increment of new faculties, engaging with scientists from Academia Sinica, Industrial Technology Research Institute (ITRI), and senior in-house R&D fellows, reinforcing the technical collaboration with southeast Asia, proposing international exchange program with top university to attract excellent researchers and scientists, and planning industrial-academic PhD program to cultivate student interesting in industry. Besides, activating the space in 6^th floor of Chi Mei Building efficiently as an office of innovation and entrepreneurship. Besides, the college has established Green Energy and Optoelectronics Interdisciplinary Research Center, to operate in coordination with the policy of government. In order to upgrade on-campus living function, the well-decorated

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cafeteria Shen Yuan Ji Shui has successfully opened. The public bidding of the solar cell awning and parking lot and the donation of lawn and garden embellishment has already been done. The design and fund raising processing of the dormitory has been completed.

In order to realize the policy of the government, paving way for local industrial development, new resource must be created to break the barrier of cluster-based economy. The key is the nurturing of talents. In quantity, the cluster needs sufficient faculty and student to provide energy to dedicate to national construction. In quality, innovation and creative are essential to cultivate talents with prospect to devote to the new generation industry and economic development. The college is now preparing for the 2^nd college on Tainan Campus, naming Institute of Green Energy and System Design, aiming to operate in coordination with the core cluster of green energy purposed by the government, which will be established next to THSR station. The innovation mode is to integrate resource of NCTU with Academia Sinica, applying for joint college, and inviting the scientist to participate in teaching and research.

In conclusion, the College of Photonics now aggressively accords with the policy of government and local industry based on what’s achieved over the past 7 years, making effort on the 2^nd stage of campus construction. The goal of College of Photonics is to become the domestic leading institute to cultivating scientists and engineers, realizing the Tainan version of Stanford and Silicon Valley pattern.

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Shalun Green Energy Science City

Dormitory Plan

Besides College of Photonics, Tainan Campus of NCTU is now actively preparing the Institute of Green Energy and System Design. In the near future, the total number of faculty members and students is expected to reach 1,000 people. However, there is no appropriate and sufficient dormitory yet, students are suffering from commuting and traffic safety issue. Therefore, a brand new dormitory plan is now under discussion.

A resident hall equipped with 300 beds is now in the process of fund-raising. The hall is composed of 5 units, including 4 dormitories for the students and 1 house for faculty members and guests. Each unit has about 1500 square meters, the cost of 5 units is approximately 200 million NTD.

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Donate for once and operate forever

The case will be operated by endowment. To lower the donation threshold and furtherly promote more participants, each unit is independently costs 40 million NTD. The donor is entitled to name the unit to commemorate the eternity of life.

The annual rental of each unit is approximately 3.5 million NTD, which will separately deposit into 5 independent accounts, to well apply to specific purpose, such as scholarship, research projects, purchasing books and equipment or supporting activities with educating purpose. The donor and enthusiastic alumni will be invited to participate in the discussion and examination meeting.

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Littles make Mickle

In order to encourage the participate of alumni and others, the dormitory plan also accepts small amount of donation. A single donation of 250 thousand NTD is entitled to name for a single suite; donation of 350 thousand NTD is entitled to name for a double suite; donation of 50 thousand NTD is entitled to name for a family suite; donation of 1 million NTD is entitled to name for a public area. The donations will be used in purchasing furniture and household appliances.

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Industrial-Academic Collaboration

By donating, NCTU provides talented students to work together on cutting-edge technology development, creating a win-win platform for both corporation and the school. More specifically, the cooperation supports the construction of dormitory on Tainan Campus, and manages the bilateral collaboration by applying the revolving funding deposit from the rental.

Act Now

Invest the next generation and act now. Endowment from both individual and corporation are welcome to support the revolving fund project. This is the best feedback to the society and the best way to develop a long term collaboration relationship with the academy.

Chief Executive of New Campus: Prof. Chien-Cheng Lin 0988-835-068

Project Contact: Ms. Yi-Wen Chen 03-572-9100

Monument

Memento of NCTU Tainan Campus

Mr. Huan-Chih Su

Former Mayor of Tainan County

Endowment Memento of Chi Mei Building

Mr. Wen-long Shi

Founder of Chi Mei Corporation

Mr. Liao Jinxiang

Chairman of Chi Mei Corporation

Monument of Chi Mei Building

Prof. Chun-Yu Wu

Former NCTU President

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College of Photonics

Tainan Campus, National Chiao Tung University

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No.301, Gaofa 3rd Rd., Guiren Dist.

Tainan City 71150, Taiwan

Tel: +886-6-3032121

Fax: +886-6-3032535

http://www.cop.nctu.edu.tw/

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