Dr.Hongxia Wang
Queensland University of Technology Biography
PhD in Condence Matter Physics from Institute of Physics,Chinese Academy of Science(2005).
Worked in the industry(Dyesol,Ltd)(2005-2007).
Research Officer(2007-2010) and QUT Vice-Chancellor Senior Research Fellow(2010-2012)
at University of Bath,UK.
An Australian Research Council(ARC) Future Fellow and a senior lecture at Queensland
University of Technology(2012-). Research Interests
New routes for low cost solar cells - work :
1.New materials for solar cells including dye/quantum dots-sensitized solar cells and perovskite solar cells.
2. Thin film solar cells using earth abundant materials.
3. Material engineering semiconductor metal oxides and chalcopyrite materials with controllable morphology and crystal structure and optoelectronic properties.
4.The study of the charge transfer and recombination processes in these PV devices. Publications
Dr.Hongxia Wang has published over 50 peer-reviewed research papers in high impact international journals. Her papers have been cited over 800 times to date. She is also the inventor for three patents and one industrial product on dye-sensitized solar cells. Abstract
Over the last two decades, great efforts have been devoted to develop third generation PVs which are more applicable due to their low cost, high efficiency and low environmental impact. These include sensitized solar cells which employ light absorbing material based on organic dye molecule or inorganic semiconductor nanocrystals or the recently developed perovskite material. Besides light absorber, the nanostructure TiO2 film is another component which is crucial for high performance sensitized solar cells. An in-depth understanding the kinetics of charge transport and recombination in the mesoporous TiO2 film can provide the key information for the device, which will in-turn guide material scientists to develop suitable materials for high performance sensitized solar cells.
This talk will present my research in the area of sensitized solar cells in terms of new material design and development as well as the fundamental study of the electron recombination in the device. 6月18日 上午10:00
唐仲英楼 B501
联系人:沈珍教授 zshen@nju.edu.cn
欢迎各位老师和同学参加 | 