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Hsin-Chun Lu

Hsin-Chun Lu

Associate Professor


  • Doctorate – Iowa State University, U.S.A. 1992

  • Bachelor – National Taiwan University 1985


  • Proposal Review Committee Member/Chairman – Small Business Innovative Research (SBIR) Promoting Program of Taoyuan City, Taiwan (Consumer Goods and Chemical Industries Division) (2012 – Present)

  • Proposal Review Committee Member – Small Business Innovative Research (SBIR) Promoting Program of Ministry of Economic Affairs, Taiwan (Consumer Goods and Chemical Industries Division) (2007 – Present)

  • Associate Professor – Chang Gung University (1994 – Present)

  • Post-Doctorate – Institute of Chemistry, Academia Sinica (1994 – 1994)

  • Post-Doctorate – Iowa State University, U.S.A (1992 – 1993)

Research Areas

  • Materials, devices, and fabrication processes for lithium-air battery and alternative energy

  • Materials, devices, and applications for biosensing

  • Materials, devices, and fabrication processes for optoelectronic and semiconducting thin films

  • Syntheses and applications of semiconducting quantum dots and nanoparticles


Phone: (03)-2118800 Ext 5292


Ceramic Materials Lab


  1. Research Creation Award for Instructing College Student Research Project by Ministry of Science and Technology, Taiwan (2015)

  2. Industry-Academy Cooperation Award by Ministry of Education, Taiwan (Category: Chemical Engineering) 2003

Select Publications  

  1. Shao-Hao Lu and Hsin-Chun Lu (2021, Mar). Pouch-type hybrid Li-air battery enabled by flexible composite lithium-ion conducting membrane. Journal of Power Sources 489 (2021) 229431. Corresponding Author.

  2. Si-Han Peng, Tse-Hsi Chen, Chih-Hsun Lee, Hsin-Chun Lu, Shingjiang Jessie Lue (2020, Sept). Optimal cobalt oxide (Co3O4): Graphene (GR) ratio in Co3O4/GR as air cathode catalyst for air-breathing hybrid electrolyte lithium-air battery. Journal of Power Sources, 471, 228373. Co-corresponding Author.

  3. Si-Han Peng, Hsin-Chun Lu, and Shingjiang Jessie Lue (2020, Jun). Formation of Nanocrystalline Cobalt Oxide-Decorated Graphene for Secondary Lithium-Air Battery and Its Catalytic Performance in Concentrated Alkaline Solutions. Nanomaterials 2020, 10, 1122. Co-corresponding Author.

  4. Yen-An Lu, Ting-Hsiang Chang, Shang-Hsuan Wu, Chi-Ching Liu, Kuan-Wen Lai, Yun-Chorng Chang, Yia-Chung Chang, Hsin-Chun Lu, Chih-Wei Chu, KuoChuan Ho (2019, Jan). Coral-like perovskite nanostructures for enhanced lightharvesting and accelerated charge extraction in perovskite solar cells. Nano Energy, 58, 138-146. Co-corresponding Author.

  5. Hsin-Chun Lu, Yu-Ting Chueh, Ting Tseng, Chung-Yih Wang, Chung-Hsien Chaou (2017, Oct). Application of amorphous indium gallium zinc oxide thin film transistor biosensors in Creatine Kinase detection. Procedia Technology, 27, 258-259. First and Corresponding Author. 

  6. Selvaraj Rajesh Kumar, Wei-Ting Ma, Hsin-Chun Lu, Li-Wei Teng, Hung-Chun Hsu, Chao-Ming Shih, Chun-Chen Yang and Shingjiang Jessie Lue (2017, Oct). Surfactant-Assisted Perovskite Nanofillers Incorporated in Quaternized Poly (Vinyl Alcohol) Composite Membrane as an Effective Hydroxide-Conducting Electrolyte. Energies, 10, 615. 

  7. A. K. Sahoo, G. M.Wu1, C. Y. Liu, and H. C. Lu (2015, Jul). Improved Amorphous Indium Gallium Zinc Oxide Thin Film Transistors by Low Power RF-Sputtering Deposition Using Ta2O5 Dielectric. Nanoscience and Nanotechnology Letters, 7, 1-7. 

  8. Ming-Chung Wu*, Kai-Chi Hsiao, Hsin-Chun Lu (2015, Jun). Synthesis of InGaZnO4 nanoparticles using low temperature multistep co-precipitation method. Materials Chemistry and Physics, 162 (2015), 386-391. 

  9. Hsin-Chun Lu, Jia-Chiuan Jou, Chun-Lung Chu (2013, Sep) "Influence of RF magnetron sputtering conditions on the properties of transparent conductive gallium-doped magnesium zinc oxide thin films," Surface & Coatings Technology, 231 (2013) 539–542. First and Corresponding Author.

  10. Hsin-Chun Lu, Jhih-Wei Mao, Yun-Chih Chiang (2013, Sep) "Low temperature preparation of ITO thin films by the coating solutions containing solvothermally synthesized ITO nanoparticles," Surface & Coatings Technology, 231 (2013) 526–530. First and Corresponding Author.


  1. 傅再生,盧信冲,吳孟芸,藍立璿(2020年9月)。製備水溶性量子點之方法,中華民國發明專利第I704108號,2020。

  2. 盧信冲,沈睿丞,吳振嘉,吳振銘(2018年10月)。防止流體逆流的微流體反應器,中華民國發明專利第I636948號,2018。 

  3. 盧信冲,沈睿丞,何羽庭(2017年08月)。以微流體合成量子點材料之方法,中華民國發明專利第I595924號,2017。 

  4. 盧信冲,張振崧,周家全(2016年06月)。摻雜ⅢA族元素之氧化鎂鋅濺鍍靶材之製備方法,中華民國發明專利第I535875號,2016。 

  5. 盧信沖,朱俊隆,張振崧,呂若菱,羅振洋(2015年07月)。可發光式透明太陽能電池裝置,中華民國發明專利第I492405號,2015。

  6. 盧信冲,張振崧,朱俊隆,廖敏翔,劉明鴻,江美靜 (2014年11月)。以低溫共沉澱法製作透明導電金屬氧化物粉末之方法,中華民國發明專利第I460037號,2014。

  7. 盧信冲,李珈蔚,張振崧,毛植葳,李盈融,黃盈珈 (2013年12月)。改良式電解法製備透明導電多成份金屬氧化物粉末的方法,中華民國發明專利第I418660號,2013。

  8. 陳彥仲,施修正,盧信冲,邱晉宏 ,王凱韋(2013年09月)。溶膠-凝膠法搭配溶熱法合成奈米ITO粉末之方法,中華民國發明專利第I406817號,2013。