基本信息
学术信息: | “导师论坛”系列学术报告(五十九) |
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详细信息
报告题目:Broad Bandgap Semiconductor Oxides with One-dimensional Arrays for Clean Energy and Environmental Applications
报 告 人:阙文修 教授
报告时间:2014年11月13日(星期四)下午2:00
报告地点:材料科学与工程学院 1C-202
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研究生院 材料学院
2014年11月10日
报告人简介:
阙文修,1995年获西安交通大学电子材料与元器件专业工学博士学位;1996年3月-1998年2月新加坡国立大学工程学院博士后;1998年2月-2005年12月底新加坡南洋理工大学电子与电气工程学院和材料科学与工程学院研究员;2006年初起,西安交通大学电子与信息工程学院教授、博士生导师,西安交通大学“腾飞人才计划”特聘教授,上海华东师范大学兼职教授。
自从2006年初回国工作以来作为项目主持人先后承担了国家自然科学基金重大研究计划项目、面上项目、国家863计划项目、教育部博士点基金优先发展领域项目(重点项目)、陕西省科技攻关项目、国际合作重点项目、美国应用材料基金项目等。
目前主要从事纳米复合材料的新能源和环境应用(太阳能和光催化应用);染料和半导体量子点敏化太阳能电池;半导体化合物薄膜太阳能电池;有机薄膜太阳能电池;有机-无机纳米复合光电信息材料与器件;纳光子与生物光子材料与器件;透明激光陶瓷等的研究。
报告简介:
Semiconductor oxides (such as TiO2 or ZnO) have attracted more and more attentions since they have great potential applications including solar cells, sensors, photocatalysts, light-emitting diodes and biomedicine, due to their non-toxicity to humans and environment, good mechanical and chemical stability. One-dimensional semiconductor oxide nanostructures such as nanorods, nanowires, nanobelts, and nanotubes oxides nanostructures exhibit superior physical properties as compared with conventional bulk materials, which mainly arise from the quantum-confinement effects and their large specific area, therefore, many efforts have been made to achieve such nanostructures. Here, aligned one-dimensional semiconductor oxide nanostructures for solar energy and environmental applications were fabricated and characterized. Especially, highly ordered TiO2 nanotube and ZnO nanowire arrays were prepared by anodization of titanium foils or titanium films deposited on transparent conductive oxide glass in ethylene glycol containing fluorine ions. Under mild hydrothermal conditions, oriented single-crystalline TiO2 nanowire arrays grows directly on a fluoride-doped tin oxide substrates are also prepared and characterized for high efficient solar cells. Finally, the as-prepared TiO2 and ZnO nanostructure arrays were studied and used for solar cells including dye-sensitized solar cells, quantum dot sensitized solar cells, and photocatalytic applications.