研究領域

1. 電催化水解產氫

水分解產氫的反應是個極耗能的化學反應，若能利用觸媒的催化特性方能使此一反應之活化能大幅降低而提升效率，現今產氫最好的觸媒仍為白金，但因白金的稀有性並無法被廣泛利用，本實驗室擬進行低成本產氫觸媒的研發，讓此一程序更有效率。

2. 光電化學電池

本實驗室亦著重於光電化學電池之分解水產氫及其相關領域研究，使用取之不盡的太陽能以及地球上含量豐富的材料來進行光的吸收，並且利用光激發之高能電子來促使水發生氧化還原反應而產生氫氣及氧氣。

3. 程序強化

程序強化是一個相對新穎的化工概念，主要在利用超重力場及微波等能量大幅提升質傳及熱傳效率，此一效率提升可達一至三個數量級之多，因此更能夠大幅降低設備成本。本實驗室將進行新設備之研發，並整合新穎材料之開發與傳統化工製程之程序強化，以期有創新之突破。

目前研究方向

1. 電催化水解產氫和產氧反應 & 短碳鏈有機物電化學氧化還原
2. 光電化學電池
3. 程序強化

1. 二硫化鉬於水分解產氫之催化效果研究
2. 二硫化鉬於水分解產氫之催化效果研究(2/2)
3. 水分解產氧反應之觸媒研發 - 金屬氧化物
4. 高催化活性之非晶相混合金屬氧化物於電催化產氧反應研究

2012-2017年著作選列/代表近作

1. Vo, TG ; Chiu, JM ; Chiang, CY^* ; Tai, Y*,"Solvent-engineering assisted synthesis and characterization of BiVO4 photoanode for boosting the efficiency of photoelectrochemical water splitting",SOLAR ENERGY MATERIALS AND SOLAR CELLS(2017),166,212-221.
2. C. Y. Chiang, D. W. Lee, H. S. Liu* ," Carbon Dioxide Capture by Sodium Hydroxide-Glycerol Aqueous Solution in a Rotating Packed Bed. Journal of the Taiwan Institute of Chemical Engineers(2017), 72,29-36.
3. C. Y. Chiang, A. Casandra, W. Suryaputra, S. Y. Lin* ," Drop Impingement of Water and Aqueous SDS Solution of 2.5xCMC on Polycarbonates. Journal of Industrial and Engineering Chemistry(2017), 49,189-197.
4. Chen, YW  ; Lin, SY; Chiang, CY*,"Molybdenum Sulfide for Hydrogen Evolution Reaction: The Importance of Solution Dynamic Wetting Behavior in The Drying Process",LANGMUIR(2017),33,19,4638-4646.
5. C. Y. Chiang*, Y. Shin, S. Ehrman (2016) Dopant Effects on Conductivity in Copper Oxide Photoelectrochemical Cells. Applied Energy, 164, 1039-1042.
6. Y. H. Chang, F. Y. Wu, T. Y. Chen, C. L. Hsu, F. Wiryo, K. W. Wei, C. Y. Chiang, L. J. Li* (2014) Three-Dimensional Molybdenum Sulfide Sponges for Electrocatalytic Water Splitting. Small, 10, 895-900.
7. T. Y. Chen, Y. H. Chang, C. L. Hsu, K. W. Wei, C. Y. Chiang*, L. J. Li* (2013) Comparative Study on Thermolysis-Produced MoS₂ and WS₂ for Electrocatalytic Water Splitting. International Journal of Hydrogen Energy, 38, 12302-12309.
8. C. Y. Chiang, J. Epstein, A. Brown, J. N. Munday, J. Culver, S. Ehrman* (2012) Biological Templates for Anti Reflective Current Collectors for Photoelectrochemical Cell Applications. Nano Letters, 12, 6005-6011.
9. C. Y. Chiang, Y. Shin, K. Aroh, S. Ehrman* (2012) Copper Oxide Photocathodes Prepared by a Solution Based Process. International Journal of Hydrogen Energy, 37, 8232-8239.
10. C. Y. Chiang, Y. Y. Liu, Y. S. Chen, H. S. Liu* (2012) Absorption of Hydrophobic Volatile Organic Compounds by a Rotating Packed Bed. Industrial & Engineering Chemistry Research, 51, 9441-9445
11. C. Y. Chiang, M. H. Chang, H. S. Liu, C. Y. Tai, S. Ehrman* (2012) Process Intensification in The Production of Photocatalysts for Solar Hydrogen Generation. Industrial & Engineering Chemistry Research, 51, 5207-5215.
12. C. Y. Chiang, Y. Shin, S. Ehrman* (2012) Li Doped CuO Film Electrodes for Photoelectrochemical Cells. Journal of The Electrochemical Society, 159, B227-B231.
13. C. Y. Chiang, K. Aroh, S. Ehrman*, (2012) Copper Oxide Nanoparticle Made by Flame Spray Pyrolysis for Photoelectrochemical Water Splitting – Part I. CuO Nanoparticle Preparation. International Journal of Hydrogen Energy, 37, 4871-4879.

榮譽獲獎

²  104學年度 化工系教學優良教師

²  103學年度 化工系教學優良教師

²  Recruitments of Special Outstanding Personnel with Subsidies from the National Science

            Council,Executive Yuan, Taiwan 2013

²  Academia Sinica Postdoctoral Research Fellowship 2013

²  Chemical and Biomolecular Engineering Doctoral Research Award 2012

²  Poster Award, ResearchFest, Maryland 2012

²  IGERT Symposium Award, Energy and Sustainability Conference, Delaware 2011

²  Outstanding Teaching Assistant Service Award 2010

²  University of Maryland Graduate Assistantship 2009-2012

²  Anneke Levelt Sengers Graduate Fellowship 2008-2009

²  A. James Clark School of Engineering Distinguished Fellowship 2008-2009

Lab group members