13
2022-10
(10月18日)Opportunities and Challenges in Single-Molecule Sciences
报告内容简介:This talk will exemplify our on-going interest and great effort in developing efficient lithographic methodologies capable of creating molecular electronic devices through the combination of top-down micro/nanofabrication with bottom-up molecular assembly. These devices use nanogapped carbon nanomaterials (such as single-walled carbon nanotubes (SWCNTs) and graphene) as point cont...
10
2022-10
(10月11日)Heterogeneous Photochemistry as a Basis for Understanding and Studying Photocatalysis--Molecular level studies based on PL measurements--(Part1)
报告摘要: Photochemistry has developed over the past century in homogeneous systems such as the gas-phase and liquid-phase, and then in crystal solids of organic compounds based on the detection of products as well as the measurements of fluorescence and phosphorescence (photoluminescence, PL).1) These remarkable developments in photochemistry have been highly evaluated as evidenced by such st...
10
2022-10
(10月18日)Heterogeneous Photochemistry as a Basis for Understanding and Studying Photocatalysis--Molecular level studies based on PL measurements--(Part2)
报告摘要: Photochemistry has developed over the past century in homogeneous systems such as the gas-phase and liquid-phase, and then in crystal solids of organic compounds based on the detection of products as well as the measurements of fluorescence and phosphorescence (photoluminescence, PL).1) These remarkable developments in photochemistry have been highly evaluated as evidenced by such st...
05
2022-10
(10月5日)Photocatalytic Reduction of CO2 into CO with Water Molecules as an Electron Donor over Photocatalysts
报告题目:Photocatalytic Reduction of CO2 into CO with Water Molecules as an Electron Donor over Photocatalysts报告时间:2022年10月05日上午10:00-11:30报告地点:腾讯会议会议ID: 159-387-813报 告 人:Prof. Tsunehiro Tanaka(教授、日本京都大学)报告主持人:Prof. Masakazu Ampo(教授、学院&日本大阪公立大学) 报告摘要:  Photocatalytic conversion of CO2 to reduction products, such as CO, HCOOH, HCH...
26
2022-09
(9月27日)Surface modified, dye-sensitized metal oxide nanosheets for efficient solar water splitting
报告主持人:Prof. Masakazu Ampo(教授、学院&日本大阪公立大学) 报告摘要: 报告人简介:Kazuhiko Maeda, 2007年博士毕业于东京大学,师从Kazunari Domen教授。2008-2009年在美国宾夕法尼亚洲立大学从事博士后研究(合作导师:Thomas E. Mallouk教授),2009年加入东京大学任助理教授,2012年加入东京工业大学任副教授,2022年任东京工业大学任教授。2010-2014年期间任命为PRESTO/JST研究员,主要的研究兴趣是光能到...
20
2022-09
(9月20日)The Science and Technology of Catalysis as a Basis for Understanding and Studying Photocatalysis--From fundamentals to industrial applications--
报告题目:The Science and Technology of Catalysis as a Basis for Understanding and Studying Photocatalysis--From fundamentals to industrial applications--报告时间:2022年9月20日上午10:00-11:00报告地点:腾讯会议会议ID: 840-9537-3327报 告 人:Masakazu Ampo教授(学院&日本大阪公立大学) 报告摘要: In the past century, research on various catalytic systems has been carried out using various kinds...
20
2022-09
(9月23日)Controlling the Energy Structure of AgInGaS Quantum Dots for Enhancing Their Photoluminescence Property and Photocatalytic Activity
报告题目:Controlling the Energy Structure of AgInGaS Quantum Dots for Enhancing Their Photoluminescence Property and Photocatalytic Activity报告时间:2022年9月23日上午10:00-11:30报告地点:腾讯会议会议ID: 578-702-581报 告 人:Prof. Tsukasa Torimoto(教授、名古屋大学)报告主持人:Prof. Masakazu Ampo(教授、学院&日本大阪公立大学)报告摘要: Quantum dots (QDs) composed of group I-III-VI semicon...
14
2022-09
(9月21日)为合成科学插上化学与生物两只翅膀
报告题目: 为合成科学插上化学与生物两只翅膀报告人:  雷晓光 北京大学时  间:2022年9月21日上午10:00 - 12:00地  点:腾讯会议(ID:260 823 643)组织单位:曾华强教授团队 报告内容简介:化学合成一直以来是推动生物医学研究和创新药物开发的重要基础。但是,目前对于具有重要生物活性和复杂结构的有机分子,特别是天然产物分子的合成效率还远远没有达到理想效果。与化学合成相对应的基于酶催化反应的生物合成方法在底物的...
13
2022-09
(9月16日)水分子在电极上富集定向吸附活化与电解水
报告题目: 水分子在电极上富集定向吸附活化与电解水报告人:  魏子栋 重庆大学时  间:2022年9月16日上午10:00 - 12:00地  点:腾讯会议(ID:)478-111-268组织单位:曾华强教授团队 报告内容简介:我国提出在2060年实现碳中和的伟大目标,构建低碳清洁且高效安全的能源体系以实现可持续发展的战略决心。把可再生能源以氢能的形式储存起来,在通过燃料电池技术转换为输出平稳的电力作为其最为重要的终端应用因而也具有广阔的市...
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