武汉光电论坛第148期
报告题目:高效太阳能转换的材料创新
Materials Innovation for Efficient Solar Energy Conversion
时 间:2018年11月1日15:00-17:00
地 点:光电国家研究中心A101
报 告 人:杨世和 教授,北京大学深圳研究生院
邀 请 人:陈 炜 教授
报告人简介:
杨世和教授本科毕业于中山大学高分子化学与物理专业,在美国莱斯大学获物理化学博士学位,师从于化学诺贝尔奖获得者Richard E. Smalley教授;在加入香港科技大学之前,曾在美国阿贡国家实验室和多伦多大学做博士后研究(师从于另一位诺贝尔奖获得者John C. Polanyi教授)。现任北京大学深圳研究生院广东纳米微材料研究重点实验室主任。他的研究兴趣包括化学和物理的有限系统、团簇、纳米材料和能量转换等方面。他和合作者在团簇、富勒烯/金属富勒烯,新型纳米材料化学、新一代太阳能电池、太阳能燃料和其他能源转换装置等领域的科学认识和发展做出了很多贡献。他目前的兴趣集中在太阳能纳米科学和纳米技术上。目前为止,他已经发表了520多篇国际期刊论文和10多篇专利,论文被引用超过30000余次,h影响因子94。他连续两次获得国家自然科学奖二等奖。目前他还是多个国际期刊的编委会成员,包括ChemNanoMat (VCH-Wiley), Sustainable Energy (Hans Publishers), International Journal of Nanotechnology (Inderscience Enterprises Ltd.)等。
Biography:
Shihe Yang received his B.S. in Polymer Chemistry/Physics from Sun Yat-Sen University in China and Ph.D. in Physical Chemistry (with the Nobel Laureate Prof. Richard E. Smalley). He did post-doctoral research at Argonne National Laboratory and the University of Toronto (with the Nobel Laureate Prof. John C. Polanyi) before joining the faculty at The Hong Kong University of Science and Technology, where he became a full professor. He is now Director of Guangdong Key Lab of Nano-Micro Material Research, Shenzhen Graduate School, Peking University, Shenzhen. His research interests include chemistry and physics of clusters, nanomaterials, soft matter and energy conversion. He and co-workers made contributions to the understanding and development of cluster science, fullerenes/metallofullerenes, soft materials interfaces, novel nanomaterials chemistry, new generation solar cells, solar fuels, and other energy conversion devices. His current interest is focused on solar energy nanoscience and nanotechnology. He is the author/co-author of over 520 international journal publications and ~10 patents with > 30,000 citations (Google Scholar h-index > 94). His scientific research has been recognized by, among others, two State Natural Science Awards. He is currently an editorial board member of several international journals including ChemNanoMat (VCH-Wiley), Sustainable Energy (Hans Publishers), International Journal of Nanotechnology (Inderscience Enterprises Ltd.), etc.
报告摘要:
多尺度材料的装配和集成对新一代太阳能器件的运行至关重要,需要基础科学的设计和阐述。关键是要了解和利用定制材料的内在特性,以及材料组件之间的相互作用,从而实现所需要的功能。我将介绍我们在通过溶液过程连接和组装各种纳米结构方面的最新成果。这些新型材料已经被用做高效太阳能转换装置的高效光吸收层,载流子传输层,界面层和表面反应促进剂,特别是在钙钛矿太阳能电池和光电化学电池中。并将讨论这些结果对新太阳能装置的未来发展的影响。
Abstract:
Materials assembly and integration at multiple length scales are critical to the functioning of new generation solar energy devices, and call for basic science informed design and elaboration. The key is to understand and leverage the intrinsic properties of the tailored materials as well as the interplay between the material components so as to realize the desired functions. In this contribution, I will present some of our recent results in interfacing and assembling various nanostructures by solution processes. The novel materials have been explored as efficient light absorbers, carrier transporters, interlayers and surface reaction promoters for high-performance solar energy conversion devices, particularly perovskite solar cells and photoelectrochemical cells. Implications of these results on the future development of new solar energy devices will be discussed.
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