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Shih-Chen Shi

Associate Professor
Name Shih-Chen Shi
Office 91720
TEL 62176
FAX
E-Mail scshi@mail.ncku.edu.tw
Laboratory http://www.me.ncku.edu.tw/enus/content/shih-chen-shi
Education
  1. Ph.D., Department of Materials Science and Engineering, National Chiao Tung University.
  2. Master., Department of Mechanical Engineering, National Cheng Kung University.
Experience
  1. Associate Professor, Department of Mechanical Engineering, National Cheng Kung University
  2. Assistant Professor, Department of Mechanical Engineering, National Cheng Kung University
  3. Metal Industry Research and Development Center
  4. Neogeneration Biotechnology Co., Ltd.
  5. Everlight Electronics Industry Co., Ltd.
Expertise
  1. Metal process and microstructure analysis
  2. Micro/nano tribology
  3. Nano material preparation, dispersion and application
  4. Photobiology and photochemistry
  5. LED Design and Application (Optical Simulation)
  6. Stress and heat transfer analysis
  7. Cellulose materials (biodegradable materials)
  8. Composite material
Service
1. Board members and permanent members of Taiwan Plasma Technology Association (TAPST)
2. Teachers of Teacher Training Center of National Cheng Kung University
3. Deputy convener of the Photobiology and Photochemistry sub-project of the Taiwan Lighting Commission (CIE Taiwan)
Honors
  1. Best Poster Award: 2019 International Tribology Conference Sendai 2019 (ITC 2019).
  2. Excellent Paper Award: 2019 International Thin Films Conference 2019 (TACT 2019).
  3. Awarded Paper of Excellence: 2019 Journal of Materials Engineering Performance
  4. Best Poster Award of 2019 Taiwan Tribology Technology conference.
  5. Tribology Technology Special Award of 2019 Taiwan Tribology Technology conference.
  6. Third place in the 2019 National Tribology Technology Competition.
  7. Teaching Excellence Award from the Department of Mechanical Engineering, National Cheng Kung University
  8. Excellent award of 2018 SPINTECH Technology Thesis Award.
  9. Best Creative Award 2018 National Tribology Technology Competition.
  10. 2018 Lam Research Award.
  11. Excellent Award of 2017 National Tribology Technology Competition.
  12. Excellent Creativity Award of 2017 SPINTECH Technology Thesis Award.
  13. 2017 Lam Research Award.
  14. Best Young Investigator: International Conference on Engineering Tribology and Applied Technology 2016 (ICETAT 2016).
  15. Best Poster Award of 2016 International Conference on Engineering Tribology and Applied Technology 2016 (ICETAT 2016).
  16. Excellent Creativity Award of 2016 SPINTECH Technology Thesis Award.
Patents
  1. I599271
  2. I599273 
  3. I419001 
  4. D152552 
  5. I383741 
  6. D150882 
  7. I375537 
  8. D149125 
  9. D148598 
  10. 201247029 
  11. 201205770 
  12. 201129248 
  13. 200921458 
  14. US 8497629 B2 Color-temperature-tunable device
  15. EP 2323462 A3  Method of determining number of light sources
  16. CN 301762042 
  17. CN 301735762 S 
  18. CN 102150584 B 
  19. CN 102138726 B 
  20. CN 102347323
  21. CN 101441948 A 
  22. CN 102077766 B 
  23. CN 102767811A 
Publications
  1. Shih-Chen Shi*, Chieh-Chang Su, 2020/07/01, Electrochemical behavior of hydroxypropyl methylcellulose acetate succinate as novel biopolymeric anticorrosion coating, Materials Chemistry and Physics, 2020, 248, 122929, (SCI, Impact Factor 2.781, Ranking 115/293, MATERIALS SCIENCE, MULTIDISCIPLINARY).
  2. Shih-Chen Shi*, Shao-Zhe Jiang, 2020/05/15, Influence of graphene/copper hybrid nanoparticle additives on tribological properties of solid cellulose lubricants, 2020, 389, 125655, (SCI, Impact Factor: 2.589, Rank 4/19, MATERIALS SCIENCE, COATINGS & FILMS).
  3. Shih-Chen Shi*, Xiao-Ning Tsai, Shia-Seng Pek, 2020/05/15, Tribological behavior and energy dissipation of hybrid nanoparticle-reinforced HPMC composites during sliding wear, 2020, 389, 125617, (SCI, Impact Factor: 2.589, Rank 4/19, MATERIALS SCIENCE, COATINGS & FILMS).
  4. Shih-Chen Shi*, Jason Hsiao Chun Yang, 2020/03/18, Preparation of stable biopolymer composite suspension, Modern Physics Letters B, 2020, 34, 7-9, 2040028, (SCI, Impact Factor 0.929, Ranking 41/55, PHYSICS, MATHEMATICAL).
  5. Shih-Chen Shi*, Shia-Seng Pek, 2019/09/10, Third-Body and Dissipation Energy in Green, Applied sciences, 2019, 9, 3787, (SCI, Impact Factor 2.217, Ranking 67/148, PHYSICS, APPLIED).
  6. Shih-Chen Shi*, Yao-Qing Peng, 2019/9/01, Preparation and tribological studies of stearic acid-modified biopolymer, Progress in Organic Coatings, 2019, 138, 105304. (SCI, Impact Factor: 3.42, Rank 2/20, MATERIALS SCIENCE, COATINGS & FILMS).
  7. Shih-Chen Shi*, 2019/03/20, Electrochemical Properties of Biopolymers in Strong Acid and Application in Displacement Sensor, Sensors and Materials, 2019, 31, 1599-1608, (SCI, Impact Factor 0.519, Ranking 245/275, MATERIALS SCIENCE, MULTIDISCIPLINARY).
  8. Shih-Chen Shi*, Ting-Wei Chang, 2018/11/09, FTIR study of the surface properties and tribological behaviors of plasma‑modified UHMWPE and zirconia, Optical and Quantum Electronics, 2018 50:440, (SCI, Impact Factor 1.055, Ranking 193/262, MATERIALS SCIENCE, MULTIDISCIPLINARY).
  9. Shih-Chen Shi*, Ting-Wei Chang, 2018/11/09, FTIR and Raman study of the structural properties and tribological characteristics of collagen, Optical and Quantum Electronics, 2018 50:438, (SCI, Impact Factor 1.055, Ranking 193/262, MATERIALS SCIENCE, MULTIDISCIPLINARY).
  10. Shih-Chen Shi*, Jhen-Yu Wu, Yao-Qing Peng, 2018/5/30, Transfer layer formation in MoS2/Hydropropyl methylcellulose composite, Wear, 2018, 408-409, 208. (SCI, Impact Factor: 2.531, Rank 28/130, ENGINEERING, MECHANICAL).
  11. Shih-Chen Shi*, Teng-Feng Huang, 2018/3/15, Effects of temperature and humidity on self-healing behaviour of biopolymer hydroxylpropyl methylcellulose for ecotribology, Surface and Coatings Technology, 2018, 350, 997. (SCI, Impact Factor: 2.589, Rank 4/19, MATERIALS SCIENCE, COATINGS & FILMS).
  12. Shih-Chen Shi*, Jhen-Yu Wu, 2018/2/20, Deagglomeration and tribological properties of MoS2/hydroxypropyl methylcellulose composite thin film, Surface and Coatings Technology, 2018 350, 1045. (SCI, Impact Factor: 2.589, Rank 4/19, MATERIALS SCIENCE, COATINGS & FILMS).
  13. Shih-Chen Shi*, Jhen-Yu Wu, 2018/03/09, Enhancement Mechanism for Carbohydrate Polymer Green Lubricant, Polymers & Polymer Composites, 2018, 26, 1, 85 (SCI, Impact Factor 0.25, Ranking 32/33, MATERIALS SCIENCE, CHARACTERIZATION & TESTING).
  14. Shih-Chen Shi*, Wen-Ke Huang, 2017/11/24, Evaluation of Photodynamic Inactivation Efficiency Using Conventional and Decorative Light-Emitting Diode Lamps, Sensors and Materials, 2017, 29, 1569, (SCI, Impact Factor 0.519, Ranking 245/275, MATERIALS SCIENCE, MULTIDISCIPLINARY).
  15. Shih-Chen Shi*, Jhen-Yu Wu, 2017/11/24, Parameter Effect on Tribology Performance of Biopolymer Composite Green Lubricant, Sensors and Materials, 2017, 29, 1491, (SCI, Impact Factor 0.519, Ranking 245/275, MATERIALS SCIENCE, MULTIDISCIPLINARY).
  16. Shih-Chen Shi*, Jhen-Yu Wu, 2017/07/29, MoS2 Additives for Enhancing Tribological Performance of Hydroxypropyl Methylcellulose Biopolymer, Smart Science, 2017, 5, 167, (ESCI).
  17. Shih-Chen Shi*, Teng-Feng Huang, 2017/1/22, Self-healing Materials for Ecotribology, Materials, 2017, 10, 91, (SCI, Impact Factor 2.654, Ranking 82/275, MATERIALS SCIENCE, MULTIDISCIPLINARY).
  18. Shih-Chen Shi*, Teng-Feng Huang, 2016/11/11, Raman study of HPMC biopolymer transfer layer formation under tribology test, Optical and Quantum Electronics, 2016 48:532, (SCI, Impact Factor 1.055, Ranking 193/262, MATERIALS SCIENCE, MULTIDISCIPLINARY).
  19. Shih-Chen Shi*, 2016/10/21, Tribological Performance of Green Lubricant Enhanced by Sulfidation IF-MoS2, Materials, 2016, 9, 856 (SCI, Impact Factor 2.728, Ranking 63/271, MATERIALS SCIENCE, MULTIDISCIPLINARY).
  20. Shih-Chen Shi*, Jhen-Yu Wu, Teng-Feng Huang, 2016/9/30, Raman, FTIR, and XRD study of MoS2 enhanced hydroxypropyl methylcellulose green lubricant, Optical and Quantum Electronics, 2016 48:474, (SCI, Impact Factor 1.055, Ranking 193/262, MATERIALS SCIENCE, MULTIDISCIPLINARY).
  21. Shih-Chen Shi*, Chieh-Chang Su, 2016/7/23, Corrosion Inhibition of High Speed Steel by Biopolymer HPMC Derivatives, Materials, 2016, 9, 612, (SCI, Impact Factor 2.654, Ranking 82/275, MATERIALS SCIENCE, MULTIDISCIPLINARY).
  22. Shih-Chen Shi*, Fu-I Lu, 2016/5/5, Biopolymer green lubricant for sustainable manufacturing, Materials, 2016, 9(5), 338, (SCI, Impact Factor 2.654, Ranking 82/275, MATERIALS SCIENCE, MULTIDISCIPLINARY).
  23. Shih-Chen Shi*, Jhen-Yu Wu, Teng-Feng Huang, Yao-Qing Peng, 2016 /3/22, Improving the tribological performance of biopolymer coating with MoS2 additive, Surface and Coatings Technology, Vol. 303, pp. 250-255, 2016, (SCI, Impact Factor: 2.589, Rank 4/19, MATERIALS SCIENCE, COATINGS & FILMS).
  24. Shih-Chen Shi*, Teng-Feng Huang, 2015/4/14, Preparation and Tribological Study of Biodegradable Lubrication Films on Si Substrate, Materials, 2015, 8, 1738-1751, (SCI, Impact Factor 2.654, Ranking 82/275, MATERIALS SCIENCE, MULTIDISCIPLINARY).
  25. Shih-Chen Shi*, Luminescence properties of wurtzite AlN nanotips. ApPhL 89, 163127 (2006).
  26. Shih-Chen Shi*, S. Chattopadhyay, C.-F. Chen, K.-H. Chen, L.-C. Chen, Structural evolution of AlN nano- structures: Nanotips and nanorods. CPL 418, 152-157 (2006).
  27. S. Chattopadhyay et al., Self-selected apex angle distribution in aluminum nitride and indium nitride nanotips. ApPhL 89, 143105 (2006).
  28. Shih-Chen Shi*., Growth of Single‐Crystalline Wurtzite Aluminum Nitride Nanotips with a Self‐Selective Apex Angle. Adv. Funct. Mater. 15, 781-786 (2005).
  29. Shih-Chen Shi*, C.-F. Chen, S. Chattopadhyay, K.-H. Chen, L.-C. Chen, Field emission from quasi-aligned aluminum nitride nanotips. ApPhL 87, 073109-073109-073103 (2005).
  30. S. Chattopadhyay et al., Molecular sensing with ultrafine silver crystals on hexagonal aluminum nitride nanorod templates. J. Am. Chem. Soc. 127, 2820-2821 (2005).
  31. L. Trinkler et al., UV light induced luminescence processes in AlN nanotips and ceramics. Physica status solidi (c) 2, 334-338 (2005).
  32. Shih-Chen Shi*, Reduced temperature-quenching of photoluminescence from indium nitride nanotips grown by metalorganic chemical vapor deposition. ApPhL 87, 203103 (2005).
  33. Y.-C. Cheng et al., Effects of interfacial layers in InGaN∕GaN quantum-well structures on their optical and nanostructural properties. JAP 98, 014317 (2005).
  34. C.-M. Chen et al., Purification of multi-walled carbon nanotubes by microwave digestion method. DRM 13, 1182-1186 (2004).
  35. C.-L. Lin, C.-F. Chen, S.-C. Shi, Field emission properties of aligned carbon nanotubes grown on stainless steel using CH< sub> 4</sub>/CO< sub> 2</sub> reactant gas. DRM 13, 1026-1031 (2004).
  36. Z. Lan et al., Growth mechanism, structure and IR photoluminescence studies of indium nitride nanorods. JCrGr 269, 87-94 (2004).
  37. Y.-C. Cheng et al., Nanostructures and carrier localization behaviors of green-luminescence InGaN/GaN quantum-well structures of various silicon-doping conditions. ApPhL 84, 2506-2508 (2004).
  38. C. Hsu, S. Shi, C. Chen, Growth of chromium carbide capped–carbon nanotip using bias-assisted microwave plasma chemical vapor deposition. TSF 469, 131-134 (2004).
  39. C.-L. Lin, C.-F. Chen, S.-C. Shi, Field emission properties of aligned carbon nanotubes grown on stainless steel using CH 4/CO 2 reactant gas. DRM 13, 1026-1031 (2004).
  40. M. Chen, C.-M. Chen, S.-C. Shi, C.-F. Chen, Low-temperature synthesis multiwalled carbon nanotubes by microwave plasma chemical vapor deposition using CH4–CO2 gas mixture. JJAP 42, 614 (2003).