Metal Complexes Supported by Redox-Active Pyridylpyrrolide Ligands: Conceptually New Platforms for Greenhouse Gas Remediation and Group Transfer Catalysis

氧化还原活性吡啶基吡咯烷配体支持的金属配合物：温室气体修复和基团转移催化的概念新平台

• 批准号: 1137284
• 负责人: Skye Fortier
• 金额: $ 20万
• 依托单位: Indiana University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2011
• 资助国家: 美国
• 起止时间: 2011-10-01 至 2013-09-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1137284&HistoricalAwards=false
• 关键词: Metal; Complexes; Supported; Redox; Active

The Division of Chemistry supports Skye Fortier of the University of Indiana as an American Competitiveness in Chemistry Fellow. Dr. Fortier will work on synthesizing new redox catalysts using earth-abundant transition metals and 'non-innocent' ligands. The PI will collaborate with scientists at Argonne National Laboratory and Roosevelt University (Chicago). The ultimate goal of this research is to develop efficient, inexpensive catalysts for chemical synthesis. For his plan for broadening participation, Dr. Fortier will mentor young scientists at Indiana University and participate in a science summer camp for high school students and teachers. Research like that of Dr. Fortier is aimed at developing better ways of conducting chemical reactions. The catalysts that Dr. Fortier will develop will use earth-abundant materials, and as a result will be less expensive. The results of research like this can help scientists and the chemical industry do chemistry with less environmental impact. The efforts at broadening participation being pursued by Dr. Fortier are aimed at giving a young scientists and the public exposure to the chemical sciences.

化学系支持印第安纳大学的Skye Fortier作为美国化学研究员的竞争力。 Fortier博士将使用土壤丰富的过渡金属和“非自然”配体合成新的氧化还原催化剂。 PI将与Argonne国家实验室和罗斯福大学（芝加哥）的科学家合作。 这项研究的最终目的是开发有效，廉价的化学合成催化剂。 为了扩大参与的计划，Fortier博士将指导印第安纳大学的年轻科学家，并参加高中生和老师的科学夏令营。 像Fortier博士这样的研究旨在发展进行化学反应的更好方法。 Fortier博士将开发的催化剂将使用丰富的材料，因此价格便宜。 这样的研究结果可以帮助科学家和化学工业对环境影响较小的化学反应。 Fortier博士进行的扩大参与的努力旨在为年轻的科学家和公众接触化学科学。