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个人简介
Professor Munira Khalil is a physical chemist whose research focuses on developing a microscopic understanding of how coupled electronic, vibrational, and solvent degrees of freedom optimize charge and energy transfer pathways in molecular photochemistry.
Munira’s research has been recognized by the Dreyfus New Faculty Award (2007), Packard Fellowship in Science and Engineering (2008), CAREER Award from the National Science Foundation (2009), Sloan Research Fellowship (2012), Camille-Dreyfus Teacher-Scholar Award (2013) and the Journal of Physical Chemistry Lectureship (2014). She was named a Kavli Frontiers of Science Fellow in 2011 and the Fellow of the American Physical Society in 2017.
Current problems of interest include: (i) mapping intra and inter-molecular vibrational phase and energy relaxation on excited electronic states during charge transfer processes and photolysis in solution; (ii) deciphering the electronic and structural basis for light-induced molecular changes in coordination compounds in the condensed phase; and (iii) unraveling the complex interactions between natural chromophores and their protein hosts that leads to optical signals being converted to large scale atomic motions. These problems are important both from a basic science perspective and for designing new materials and molecular devices.
Munira’s research has been recognized by the Dreyfus New Faculty Award (2007), Packard Fellowship in Science and Engineering (2008), CAREER Award from the National Science Foundation (2009), Sloan Research Fellowship (2012), Camille-Dreyfus Teacher-Scholar Award (2013) and the Journal of Physical Chemistry Lectureship (2014). She was named a Kavli Frontiers of Science Fellow in 2011 and the Fellow of the American Physical Society in 2017.
Current problems of interest include: (i) mapping intra and inter-molecular vibrational phase and energy relaxation on excited electronic states during charge transfer processes and photolysis in solution; (ii) deciphering the electronic and structural basis for light-induced molecular changes in coordination compounds in the condensed phase; and (iii) unraveling the complex interactions between natural chromophores and their protein hosts that leads to optical signals being converted to large scale atomic motions. These problems are important both from a basic science perspective and for designing new materials and molecular devices.
研究兴趣
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JOURNAL OF CHEMICAL THEORY AND COMPUTATIONno. 3 (2023): 1306-1323
Inorganic chemistryno. 25 (2023): 9904-9911
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Megan D. Klein, Casey H. Bisted,Florence Y. Y. Dou,Jason W. Sandwisch,Brandi M. Cossairt,Munira Khalil
JOURNAL OF PHYSICAL CHEMISTRY Cno. 34 (2023): 16970-16978
Nature Communicationsno. 1 (2023): 1-8
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ECS Meeting Abstractsno. 48 (2022): 1807-1807
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Nature Chemistryno. 4 (2021): 474-474
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