Vice-President Lin

CURRICULUM VITAE

Name

Chii-Ruey

Last name

Lin

Present address

Vice-President Office
National of Taipei University of Technology
1, Sec.3, Chung-Hsiao E.Rd, Taipei106, Taiwan, R.O.C.
Telephone: +886-2-2752-4188
Fax: +886-2-276-0020
e-mail: crlin@ntut.edu.tw

Marital Status & Children

Three children/One graduated from Stanford U. (USA), the other graduated from Manchester U.(UK)

Educational Qualifications

Sl.No.	Degree	University	Year	Subjects
1	Junior College	National Taipei Institute of Technology, Taiwan, R.O.C.	1975	Mechanical Engineering
2	B.Sc(H)	National Taiwan University of Science and Technology, Taiwan, R.O.C.	1982	Mechanical Engineering
3	M.Sc	National Taiwan University of Science and Technology, Taiwan, R.O.C.	1987	Mechanical Engineering
4	Ph.D	Chiao-Tung University, Taiwan, R.O.C.	1997	Mechanical Engineering

Other Technical / Professional Experience/Attainments

1. The Russia International Engineering Academic-Junior Academician (2011~).
2. A distinguished Professor of Chinese Mechanical Engineering Society.
3. A distinguished Alumni of National Taiwan University of Science and Technology. (NTUST).
4. As a Vice-President and Dean of College of Mechanical & Electrical Engineering /Faculty from 2011, from February 1, 2011 till now with NTUT(National Taipei University of Technology).
5. As a Director of RFID Promotion Office of Ministry of Education.(2007~2011)
6. As an Associate Chairperson of “Joint Commission of Technological & Vocational College Admission Committee” (2011~)
7. As a Dean of College of Mechanical & Electrical Engineering /Faculty from 2006, February till 2006 July with NTUT.
8. As a Chairperson of Department of Mechanical l Engineering /Faculty from 2011, August till 2000 with NTUT.
9. Earned the Hiwin Technology Paper Award from 2006-2008 and ACER Foundation Award.
10. As the 2006, 2007, 2010 IEEE SMC, and the Organizer, Committeeman of many international seminars.
11. In recent years, Professor Lin published more than 130 technical papers.
12. More than ten Awards of Academic Competitions.

Details of research work carried out

As for research, Professor Lin efforts focus on mechanical engineering, coating technology, mechatronic, nanotechnology(esp. in diamond coating technology), just like diamond films, DLC, CNTs, nano-diamond films, ultra-nano-diamond films, untra-nano-diamond wire(rods) etc.. 　　Professor Lin established Diamond Group and Thin Film Lab. Many novel and high practicality studies are proceeding, such as novel hard coating technique, nano material applications in opto-electro-mechanical, fuel cell, various optical thin films design, nano diamond thin film, Carbon nanotubes, light reflection thin film, novel coating technology on plastic, and so on.

There are many homemade and advanced instruments on Thin Film Lab. Such as MPCVD, MPJCVD, RF-sputter, ion implanter, fuel cell, fuel cell test station, thin film adhesion test machines etc..

Professor Lin has abundant experiences in cooperation with industrial companies, and many qualified papers have been published in the international journal. The following describes some of the study objectives:

(i) On Surface Plasmon Resonance:

Although metal doping in diamond like carbon (DLC) films prepared by chemical/physical vapour deposition techniques had been the issue of obtaining a new class of materials in nineties, but the difficulty of dispersing the metal particles homogeneously in the DLC matrix by the techniques used by the researchers was found to be difficult. The metal particles were found to form clusters in the DLC matrix and formed carbide clusters in case of carbide forming metals. Major effort was directed towards reducing the residual stress in the DLC coating. But, DLC films being a large band gap material, metal inclusion in nano-crystalline form should also reveal interesting optical properties like surface plasmon resonance in these classes of composite materials.

Studies on the optical properties of composite materials composed of ultra-fine metal particles (Ag, Cu etc) having different grain sizes as well as inter-grain distances embedded in diamond like carbon (DLC) matrix were carried out. The composite films were prepared by simple RF Sputtering and Microwave Plasma Jet Vapor Deposition technique which are a cheap and scalable technique besides being capable of depositing films on irregular surfaces. Optical absorption studies in these materials having technological applications were critically studied.

(ii) Programme on CNTs based sensor device:

Development of sensors for detecting various chemical species and gases in many industrial, medical, environmental pollution control and commercial applications is in great need. Metal oxide gas sensors have been the subjects of large number of investigations during the past. Most of the sensors based on oxide materials showed better and acceptable sensing behaviour at significantly higher temperatures. The growing need for the development of room temperature sensors to be used in explosive ambience, and development of sensing materials which would be able to detect gases.

In this regard, carbon nanotubes (CNTs) is emerging as a promising candidate since the surface area of the CNTs is very large and there are indications that electrical properties might change at room temperature. Due to their fascinating physical and chemical properties, CNTs have emerged as ideal candidates for nanoscale devices. A number of techniques are available to synthesis carbon nanotube, most common of which are arc discharge, laser ablation and Chemical Vapour deposition processes. But all these synthesis techniques inherently produce carbon nanotubes along with various impurities in the form of amorphous carbon, metal catalysts and many carbonaceous particles etc. It needed further purification to produce high quality CNTs for device applications. So the challenge still lies on the large-scale synthesis of CNTs directly onto the wafer/substrate in their purest form and in a very cost-effective way. This has ushered a new hope to develop room temperature sensors for methane detection based on CNTs.

This research has been directed towards the synthesis and characterization of Carbon nanotubes and nanodiamond rod by adopting cost-effective and scalable vapour deposition technique for methane gas sensor applications. The films were deposited onto silicon and SnO2 –coated glass substrates. The films were characterized (TEM, SEM, EDAX, Raman Spectroscopy, FTIR, Glancing angle X-ray, AFM etc.) to understand the growth process so that films having higher sensitivity for gas detection could be obtained. Efficiency of retrieving the chemically active surface are still being studied critically.

During the course of synthesizing the films and characterizing them, Professor Lin utilized several techniques for charaterization like XRD, UV-VIS-NIR spectrophotometer, SEM, TEM, AFM, EDS, PL, Raman measurements, I-V and C-V measurement, ac and dc conductivity, FTIR etc quite extensively.

(iii) Breakthrough the barrier of intelligent CVD System also be the target of Professor Lin’s research, and how to use the mathematical calculation method to solve this issues were development.

(iv) More than 30 projects were performed by Professor Lin during the decade late. These projects came from the National Science Council, Ministry of Education, Ministry of Industry, business, and so on. Professor Lin also transferred the RF PVD target novel technology to Ritec. Co. etc..

List of Publications of International SCI and EI papers (the late five years):

2011

1. Chii-Ruey Lin*, Wen-Hsiang Liao, Da-Hua Wei, Jer-Shyong Tsai, Chien-Kuo Chang, Wei-Chuan Fang, “Formation of ultrananocrystalline diamond films with nitrogen addition,” Diamond and Related Materials,20(2011) pp.380–384.(SCI)(EI)
2. Chii-Ruey Lin*, Wen-Hsiang Liao, Da-Hua Wei, Chien-Kuo Chang, Wei-Chuan Fang, Chi-Liang Chen, Chung-Li Dong, Jeng-Lung Chen, and Jing-Hua Guo, “Improvement on the synthesis technique of ultrananocrystalline diamond films by using microwave plasma jet chemical vapor deposition,” Journal of Crystal Growth,20(2011) pp.380–384.(SCI)(EI)
3. Chii-Ruey Lin*, Da-Hua Wei, Chien-Kuo Chang, Wen-Hsiang Liao, and Kang Ran Peng, “DLC Films Deposited at Room Temperature on Flexible Plastics Substrates for Antireflection Coating,” Japanese Journal of Applied Physics,. (SCI) (EI)

2010

1. C.R. Lin, D.H. Wei, C.K. Chang, W.H. Liao, “Optical Properties of Diamond-like Carbon Films for Antireflection Coating by RF Magnetron Sputtering Method,” Physics Procedia,. (EI)
2. C.R. Lin, W.H. Liao, D.H. Wei, C.H. Tsai, and C.K. Chang, “Fabrication of nanogranular diamond films by MPJCVD system,” Physics Procedia,. (EI)

2009

1. Reui-San Chen, Tsang-Ho Yang, Hsin-Yi Chen, Li-Chyong Chen, Kuei-Hsien Chen, Ying-Jay Yang, Chun-Hsi Su, Chii Ruey Lin, “High-gain photoconductivity in semiconducting InN nanowires,” APPLIED PHYSICS LETTERS 95, 162112 (2009).
2. Tao Han, Tzu-Chen Hung, K. David Huang , Chii Ruey Lin, “Performance analysis for an Organic Rankine Cycle Using Engine Exhaust Gas as Heat Source,” Proceedings of the lnaugural US-EU-China Thermophysics Conference (UECTC-RE‘08), 28-30 May 2009 , Beijing, China.
3. Han-Pang Huang, Chun-His Su, Yuan-Pin Luh, Chii Ruey Lin, Tzu-Chen Hung, Manchi Lan, “Scheme and Current Status of Promoting Education for Technology and Application of Radio Frequency Identification in Colleges of Taiwan,” Proceedings of APEEC 2009, The ASME Asia-Pacific Engineering Education Congress. 09-11 April 2009 ,Taipei.
4. Chii-Ruey Lin, “High-Gain Photoconductivity and Oxygen Effect on Surface Transport in Semiconducting InN Nanowires,” Nano Letters, (nl-2009-00518h),
5. Mu-Jung Kao, Chil-Ruey Lin,“Evaluating the Role of Spherical Titanium Oxide Nanoparticals in Reducing Friction between two pieces of Cast Iron,”Journal of Alloys and Compounds, 483 (2009) pp.456–459(SCI)(EI)

2008

1. Chun-Hsi Su, Chii-Ruey Lin, Guo-Tsai Liau, Ching-Yu Chang, “Study on site-selective growth of carbon nanotubes and diamond films with barrier layers,” Journal of Manufacturing Science and Engineering, American Society of Mechanical Engineering, (Accepted 12 June, 2008.). (SCI)
2. Chun-Yeon Lin, Chun-Hsi Su, Chih-Ming Hsu, Chii-Ruey Lin, “Improvement for the Microcrystalline Cube Corner Reflective Structure and Efficiency,” Japanese Journal of Applied Physics, 47 (2008) pp.5693-5701. (SCI)(EI)
3. Chii-Ruey Lin, Chun-Hsi Su, Pei-Shu Fan, Kuo-Liang Wang, “Application of Nitrified Steel Deposit Diamond-Like Carbon Film in Explosive Environment,” Japanese Journal of Applied Physics, 47 (2008) pp.2221-2224. (SCI)(EI)( 1.138, )

2007

1. Chun-Hsi Su, Chii-Ruey Lin, Hsin-Chin Hung, “An Improved Performance of DMFC with MEA of Grafted CNTs,” Journal of Fuel Cell Science and Technology, American Society of Mechanical Engineering, February 2007.
2. Chii-Ruey Lin, Chun-Hsi Su, Chih-Ming Hsu, June-Yen Jhuang, Chun-Yeon Lin, “A Calculation of Microwave Power in A MPCVD System Using 2-D Gaussian Mixture Modeling,” IEEE SMC 2007 -- Intelligent Mechatronic Systems, (2007 ) pp.3006-3010. (EI)
3. Chun-Hsi Su, Chii-Ruey Lin, Chun-Yeon Lin, June-Yen Jhuang, Chih-Ming Hsu, “Characteristic Optimization of MWCNTs Using MPCVD System,” IEEE SMC 2007 -- Intelligent Mechatronic Systems, (2007) pp.3011-3015. (EI)
4. Chii-Ruey Lin, Pei-Shu Fan, Yea-Jou Shiau, Mu-Der Jeng, “An Agent-Based Early Manufacturability Assessment for Collaborative Design in Coating Process,” Lecture Notes in Computer Science, 4693 (2007) pp.649-655. (EI)
5. C.H. Su, C.R. Lin, H.C. Hung, “Study on the Synthesis of CNTs and the Fabrication of CNTs-based MEA for DMFC Application,” 2006 Fall Proceedings, Symposium Q (Volume:963E), 0963-Q20-14, Materials Research Society, April 2007.

2006

1. C.H. Su, C.R. Lin, C.Y. Chang, H.C. Hung, T.Y. Lin, “Mechanical and Optical Properties of Diamond-like carbon Thin Films Deposited by low temperature process,” Thin Solid Films, 498 (2006) pp.220-223. (SCI)(EI)( 1.727, )
2. C.R. Lin*, C.H. Su, C.H. Hung, C.Y. Chang, Shi-Hao Yan, “The effect of the substrate position on microwave plasma chemical vapor deposition of diamond films,” Surface Coatings and Technology, 200 (2006) pp.3156-3159. (SCI) (EI)
3. C.R. Lin*, C.H. Su, C.Y. Chang, C.H. Hung, “Synthesis of nanosized flake carbons by RF-chemical vapor method,” Surface and Coatings Technology, 200 (2006) pp.3190 -3193. (SCI) (EI)
4. C.H. Su, C.R. Lin, C.H. Hung, C.Y. Chang, L. Stobinski, “Novel process to synthesize the well-size-controlled carbon nanotubes using Fe/TiO2 as catalyst by sol-gel method,” Surface Coatings Technology, 200 (2006) pp. 3211-3214. (SCI)(EI)
5. C.Y. Su, C.K. Lin, C.R. Lin, C.H. Lin, “Polymerization-like Grafting of Thermoplastic Polyurethane by Microwave Plasma Treatment,” Surface and Coatings Technology, 200 (2006) pp. 3380 -3384. (SCI)(EI)
6. Chun-Hsi Su, Chii-Ruey Lin, Hsin-Chin Hung, “Improving the Performance of DMFC by Using a novel Grafting Method to Grow CNTs,” IEEE SMC 2006, (2006) pp.4742-4746. (EI)
7. Chii-Ruey Lin, Chun-Hsi Su, Guo-Tsai Liao, Hsin-Chin Hung, “Growing Sub-micron Diamond Films by A Novel Microwave Plasma Jet CVD System,” IEEE SMC 2006, (2006) pp.4733-4737. (EI)

Life member of

1. Been an AAAS member of USA
2. Been a member of New York Academy of USA
3. Member of Council of Chinese Mechanical Engineering Society.
4. Director of Taiwan Association of Coating Technology.
5. Member of Taiwan Foundry Society.
6. Member of Taiwan Automation Association.
7. Member of Taiwan Mechanics Society.
8. Be the Visiting Professor of Kunming University of Science and Technology (KUST), China.
9. Candidate as a member of International Engineering Academy, Russia.
10. Reviewer of Thin Solid Films, Surface Coating & Technology, J. of Physics and Chemistry, etc..