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Home » Events » VINSE Colloquium Series “Mimicking Nature by Metal-Organic Frameworks: Perspective and Applications” Dr. Natalia B. Shustova; The University of South Carolina 01/31/18

VINSE Colloquium Series “Mimicking Nature by Metal-Organic Frameworks: Perspective and Applications” Dr. Natalia B. Shustova; The University of South Carolina 01/31/18

Posted by on Tuesday, January 2, 2018 in Events, VINSE Colloquium, .

January 31, 2018

Natalia B. Shustova
University of South Carolina
Assistant Professor
Department of Chemistry and Biochemistry

"Mimicking Nature by Metal-Organic Frameworks: Perspective and Applications"

4:10 PM, 134 Featheringill Hall
Refreshments served at 3:45

Abstract

The study of energy transfer (ET) processes is a cornerstone of modern physical and inorganic chemistry, which is driven by growing demand in efficient energy transfer and conversion, necessary to build a sustainable energy society independent from fossil fuels. Specifically, materials with a predesigned pathway for ET can address the urgent needs in fast enhancement of material performance in areas ranging from optoelectronic devices to photocatalytic systems and, thereby, drastically modify the existing energy and material landscape. Metal-organic frameworks (MOFs) have significant advantages to achieve directional ET. For instance, they provide a high level of control for chromophore arrangement, structural parameters, and photophysical properties, through rational chromophore design and synthetic conditions unprecedented for large light-harvesting ensembles and extended structures. In this presentation, mechanistic and structural aspects of directional energy transport will be discussed on the examples of photochromic, fulleretic, and biomimetic systems in order to harness MOFs as a versatile platform for energy utilization enhancement. This talk will also cover our recent efforts in the areas of electronic structure elucidation with a particular focus on bimetallic MOFs as well as testing framework modularity towards engineering actinide-based materials.

 

 

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