Skip to Content

施士塵

personal pictures

助理教授
姓名 施士塵 (Shih-Chen Shi)
組別 機械製造與材料組
教授室 機械系館七樓91720
分機 62176
傳真機 06-2352973
電子信箱 scshi@mail.ncku.edu.tw
個人網站 http://www.me.ncku.edu.tw/~AMPL/
學歷
  1. 國立交通大學 材料科學與工程 博士
  2. 國立成功大學 機械工程研究所 碩士
  3. 國立成功大學 機械工程學系 學士
經歷
  1. 國立成功大學 機械工程學系 助理教授 (103/8 ~ )
  2. 金屬工業研究發展中心 (102/7~103/6)
  3. 新一代生技有限公司 經理 (101/9~102/6)
  4. 億光電子工業股份有限公司 研發部副理 (96/4~101/9)
專長
  1. LED設計與應用
  2. 微磨潤學
  3. 生物感測器
  4. 奈米生物應用
  5. 光生物與光化學
  6. 奈米材料
  7. 光電材料
教師研究介紹
服務
1. 台灣電漿科技協會(TAPST)第一屆理事與永久會員 
2. 台灣照明委員會 (CIE Taiwan) 光生物及光化學分項副召集人
榮譽
1. 中華民國斐陶斐榮譽學會090年榮譽會員
2. 科技部103年度大專校院延攬特殊優秀人才獎勵
專利

1.    I599273 一種塗佈奈米微粒於基材的設備及其製造方法

2.    I419001 決定光源個數的方法

3.    D152552 燈具

4.    I383741 植物培養裝置

5.    D150882 燈具

6.    I375537 化妝盒

7.    D149125 美容燈

8.    D148598 燈具

9.    201247029 照明燈具及調節其發出的不同波長光的比例的方法

10.  201205770 可調控色溫元件及產生具有不同色溫之白光的方法

11.  201129248 照明系統

12.  200921458 按鍵及其背光模組

13.  US 8497629 B2 Color-temperature-tunable device

14.  EP 2323462 A3  Method of determining number of light sources

15.  CN 301762042 S 灯(美容灯)

16.  CN 301752835 S 灯具

17.  CN 301735762 S 灯具

18.  CN 102150584 B 植物培养装置

19.  CN 102138726 B 化妆盒

20.  CN 102347323B可调控色温组件及产生具有不同色温的白光的方法

21.  CN 101441948 A 按键及其背光模组

22.  CN 102077766 B 决定光源个数的方法

23.  CN 102767811A 照明灯具及调节其发出的不同波长光的比例的方法

24.  CN 102149237 A 照明系统

著作
A.  Journal publications
 
1. S.-C. Shi, T.-F. Huang, Self-Healing Materials for Ecotribology. Materials 10, 91 (2017).
2. S.-C. Shi, J.-Y. Wu, MoS2 Additives for Enhancing Tribological Performance of Hydroxypropyl        
    Methylcellulose Biopolymer. Smart Science 5, 167-172 (2017).
3. S.-C. Shi, T.-F. Huang, Raman study of HPMC biopolymer transfer layer formation under tribology
    test.  OQE 48, 532 (2016).
4. S.-C. Shi, Tribological Performance of Green Lubricant Enhanced by Sulfidation IF-MoS2. Materials       9, 856 (2016).
5. S.-C. Shi, J.-Y. Wu, T.-F. Huang, Raman, FTIR, and XRD study of MoS2 enhanced hydroxypropyl        
    methylcellulose green lubricant. OQE 48, 474 (2016).
6. S.-C. Shi, C.-C. Su, Corrosion Inhibition of High Speed Steel by Biopolymer HPMC Derivatives.      
    Materials 9, 612 (2016).
7. S.-C. Shi, F.-I. Lu, Biopolymer Green Lubricant for Sustainable Manufacturing. Materials 9, 338
   (2016).
8. S.-C. Shi, J.-Y. Wu, T.-F. Huang, Y.-Q. Peng, Improving the tribological performance of biopolymer    
    coating with MoS 2 additive. SuCT 303, 250-255 (2016).
9. S.-C. Shi, T.-F. Huang, J.-Y. Wu, Preparation and Tribological Study of Biodegradable Lubrication
    Films on Si Substrate. Materials 8, 1738-1751 (2015).
10. S.-C. Shi et al., Luminescence properties of wurtzite AlN nanotips. ApPhL 89, 163127 (2006).
11. S.-C. 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).
12. S. Chattopadhyay et al., Self-selected apex angle distribution in aluminum nitride and indium
      nitride nanotips. ApPhL 89, 143105 (2006).
13. S.-C. Shi et al., Growth of Single‐Crystalline Wurtzite Aluminum Nitride Nanotips with a Self‐
      Selective Apex Angle. Adv. Funct. Mater. 15, 781-786 (2005).
14. S.-C. 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).
15. S. Chattopadhyay et al., Molecular sensing with ultrafine silver crystals on hexagonal aluminum
      nitride nanorod templates. J. Am. Chem. Soc. 127, 2820-2821 (2005).
16. L. Trinkler et al., UV light induced luminescence processes in AlN nanotips and ceramics. physica
      status solidi (c) 2, 334-338 (2005).
17. S.-C. Shi et al., Reduced temperature-quenching of photoluminescence from indium nitride
      nanotips grown by metalorganic chemical vapor deposition. ApPhL 87, 203103 (2005).
18. 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).
19. C.-M. Chen et al., Purification of multi-walled carbon nanotubes by microwave digestion method.
      DRM 13, 1182-1186 (2004).
20. 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).
21. Z. Lan et al., Growth mechanism, structure and IR photoluminescence studies of indium nitride
      nanorods. JCrGr 269, 87-94 (2004).
22. 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).
23. 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).
24. 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).
25. 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. JaJAP
      42, 614 (2003).
26. 施士塵,LED application in horticulture, LED world (2012).
27. 施士塵,LED于特殊照明領域的新應用,中國照明(2011).
28. 施士塵,LED科技與農業擦撞將是怎麼的光景,農訓雜誌(2011).
 
     
B.  Conference publications
 
1. Shih-Chen Shi , Teng-Feng Huang, Jhen-Yu Wu, Lubricating and degradability behavior of
    environmental friendly thin film HPMC, 9th International Symposium on Environmentally Conscious     Design and Inverse Manufacturing –Sustainability through innovation in product life cycle design,       Going Green (Ecodesign 2015).
 
2. Shih-Chen Shi, Teng-Feng Huang, Jhen-Yu Wu, MoS2 based biofriendly nanofluid for tribology    
    application, International Tribology Conference (ITC) 2015.