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Department of Chemical and Materials Engineering

Hsin-Chun Lu

Hsin-Chun Lu

Associate Professor

Tel:+886-3-2118800 ext. 5292

E-mail:hsinchun@mail.cgu.edu.tw 

 

Work Experience
Small Business Innovative Research (SBIR) Promoting Program of Ministry of Economic Affairs (Category: Chemical) Proposal Review Committee Member 2007-
Industry-Academy Cooperation Award by Ministry of Education (Category: Chemical Engineering) Winner 2003-
Chang Gung University  Associate Professor  1994-
Iowa State University Post Doc. 1992-1993

 

Academic Education
Iowa State University
Ph.D. in Ch.E. 1987 - 1992
National Taiwan University B.S. in Ch.E. 1981 - 1985

 

Expertise
Nano-sized metal oxide ceramic powders and their fabrication processes
Transparent conductive oxide materials, devices, and their fabrication processes
Alternative energy materials, devices, and their fabrication processes
Dielectric/ferroelectric/piezoelectric materials, devices, and their fabrication processes

 

Research Interests

Nano-sized metal oxide ceramic powders and their fabrication processes

  1. Fabrication of nano-sized metal oxide ceramic powders: ITO, IZO, AZO, GZO, ATO, PZT, BT, BST, MZO, AMZO, GMZO, etc...
  2. Fabrication process development for nano-sized metal oxide ceramic powders: sol-gel process, co-precipitation, electrolysis, supercritical drying, spray pyrolysis, hydrothermal method, solvothermal process, supercritical reaction, etc..

Transparent conductive oxide (TCO) materials, devices, and their fabrication processes

  1. Fabrication and process development of TCO sputtering targets: ITO, IZO, AZO, GZO, ATO, MZO, AMZO, GMZO, etc..
  2. Development of TCO thin films: ITO, IZO, AZO, GZO, ATO, MZO, AMZO, GMZO, etc..
  3. Fabrication process development of TCO thin films: sputtering, evaporation, spin coating, dip coating, etc..
  4. Development of transparent conductive oxide coating solutions for soft plastic substrates: ITO, AZO, etc..
  5. Development of transparent conductive oxide devices and their fabrication processes: TCO solar cells, TCO LEDs, etc..

Alternative energy materials, devices, and their fabrication process

  1. Development of transparent TCO photovoltaic and light emitting diode devices and their fabrication processes
  2. Development of high efficiency CIGS solar cell materials, devices, and their fabrication processes
  3. Development of the materials for super-capacitors and battery of electric vehicles and fabrication processes

Dielectric/ferroelectric/piezoelectric materials, devices, and their fabrication processes

  1. Development of dielectric, ferroelectric, and piezoelectric materials: PZT, BST, BT, etc..
  2. Fabrication process development of dielectric, ferroelectric, and piezoelectric materials: sol-gel process, hydrothermal method, solvothermal method, sputtering, etc..
  3. Development and application of surface acoustic wave (SAW) devices: biosensors, filters, etc..

 

Recent Publication
  1. Hsin-Chun Lu*, Jo-Ling Lu, Chi-You Lai, Gwo-mei Wu, “Fabrication of low-resistive p-type Al-N co-doped zinc oxide thin films by RF reactive magnetron sputtering”, Physica B: Condensed Matter 404, (2009) 4846-4849. (SCI, EI) (*Corresponding author)
  2. Chun-Lung Chu, Hsin-Chun Lu*, Chen-Yang Lo , Chi-You Lai, Yu-Hsiang Wang, “Physical properties of copper oxide thin films prepared by dc reactive magnetron sputtering under different oxygen partial pressures”, Physica B: Condensed Matter 404, (2009) 4831-4834. (SCI, EI)(*Corresponding author)
  3. G.M. Wu, C.N. Chen, W.S. Feng, H.C. Lu, “Improved AMOLED with aligned poly-Si thin-film transistors by laser annealing and chemical solution treatments”, Physica B: Condensed Matter, (2009) 4649-4652. (SCI, EI)
  4. Hsin-Chun Lu*, Chin-Hung Chiu, Yu-Ting Cheng, “Sol-Gel Derived Crystalline ITO Nano-Powders Prepared By Supercritical CO2 Drying”, 8th World Congress of Chemical Engineering, art. no. 448 (2009). (EI)(*Corresponding author)
  5. Hsin-Chun Lu*, Kai-Wei Wang, Yu-Hsiang Lin, Chun-Lung Chu, “Synthesis of Crystalline Aluminum-Doped Zinc Oxide Nano-Powders by Solvothermal Method”, 8th World Congress of Chemical Engineering, art. no. 458 (2009). (EI)(*Corresponding author)
  6. Hsin-Chun Lu*, Chun-Lung Chu, Chi-You Lai and Yu-Hsiang Wang, “Property variations of DC reactive magnetron sputtered copper oxide thin films deposited at different oxygen partial pressures”, Thin Solid Films 517,(2009) 4408-4412. (SCI, EI)(*Corresponding author)
  7. G.M. Wu, C.K. Yang, H.C. Lu, T.W. Chang, “Plasma enhanced germanium nitride dielectric thin films for phase-change recording systems”, Vacuum, 83, S33. (2009). (SCI, EI)
  8. Jo-Ling Lu, Chi-You Lai, Hsin-Chun Lu*, “Deposition of n-type and p-type Aluminum Zinc Oxide Transparent Conductive Thin Films by RF Magnetron Sputtering Using Oxide Targets”, 2008 Taiwan/Korea/Japan ChE Conference and 55th TwIChE Annual Conference, PS1063(2008). (*Corresponding author)
  9. Chen-Sung Chang, Yu-Hsiang Lin, Kai-Wei Wang, Hsin-Chun Lu, “Solvothermal Synthesis of Aluminum-doped Zinc Oxide Nanorods” , 2008 Taiwan/Korea/Japan ChE Conference and 55th TwIChE Annual Conference, PS1066(2008). (*Corresponding author)
  10. G. M. Wu, H. H. Lin, and H. C. Lu. (2008), “Work function and valance band structure of tin-doped indium oxide thin film for OLED”, Vacuum82, (2008) 1371-1374. (SCI, EI)
  11. K. J. Lu, H. C. Lu, H. L. Lin,(2008), “Method of Manufacturing Thin Film Antenna”, Air Wave Co., Ltd., United States Patent , No. US7621916B1
  12. Hsin-Chun Lu*, Yu-Ting Cheng, Chun-Lung Chu, Ruey-Chi Hsu, and Gwo-Mei Wu. (2008),  “Synthesis of Crystalline Sol-Gel Derived ITO Nano-powders by Supercritical CO2 Drying” ,IEEE Review on Advances in Micro, Nano and molecular Systems (2008). (SCI, EI) (*Corresponding author)
  13. G. M. Wu, T. J. Chung, T. E. Nee, J. C. Wang and H. C. Lu. (2008), “Silicon delta doping in GaN barriers of InGaN/GaN multiple quantum wells ”,IEEE Review on Advances in Micro, Nano and molecular Systems (2008). (SCI, EI)
  14. Hsin-Chun Lu*, Jo-Ling Lu, Chun-Lung Chu, Chi-You Lai, and Gwo-Mei Wu., “Preparation of Nano-Powders of p-Type Transparent Conductive Copper Aluminum Oxide by Co-Precipitation Method”, 2008 2nd IEEE International Nanoelectronics Conference, INEC 2008, art. no. 4585533,  485-488(2008). (EI). (*Corresponding author)
  15. Hsin-Chun Lu*, Chen-Sung Chang, Chia-Wei Li, Yu-Shiang Lin, Chun-Lung Chu , and Chi-you Lai.( 2008), “Synthesis of nano-sized powders of transparent conductive aluminum-doped zinc oxide by electrolysis-modified co-precipitation method”, 2008 2nd IEEE International Nanoelectronics Conference, INEC 2008, art. no. 4585633, 917-920(2008). (EI).
  16. G. M. Wu, Y. T. Chen, H. C. Lu, S. M. Chang,.(2006), “Gold nano-particle doped organic light-emitting devices,” SAMPE, 51, 20. (EI)
  17. Hsin-Chun Lu*, Chun-Lung Chu, Chung-Wei Chang, Meng-Kai Huang, and Mei-Ching Chiang. (2006),“Effects of Preparation Conditions of Micro-powder-Sol-Gel process on the Characteristics of PZT SAW Filters,” International SAMPE Symposium and Exhibition (Proceedings), 51 10p. (EI) (*Corresponding author)
  18. Hsin-Chun Lu*, Chun-Lung Chu, Shih-Ming Su, Yu-Ting Cheng, Yu-Hsin Chen.(2006),” Preparation of Highly Crystalline Sol-Gel Derived Nano-Sized ITO Powders by Supercritical Carbon Dioxide Drying,” International SAMPE Symposium and Exhibition (Proceedings), 51 8p. (EI) (*Corresponding author)
  19. H. C. Lu, C. H. Hsu, I. C. Lin, C. L. Weng,(2004), “Method for Preparing ITO Nanometer Powders”, United States Patent, No.US6793908B2.