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Special Inorganic Chemistry Seminar Series: Agnes Thorarinsdottir

Inorganic, Seminars

January 27, 2023 1:00 pm - 2:15 pm
Mani L. Bhaumik Centennial Collaboratory
607 Charles E. Young Dr., East
Los Angeles, CA 90095 United States
Speaker Dr. Agnes Thorarinsdottir


Flyer: Dr. Agnes Thorarinsdottir flyer

Title: New Approaches to Magnetic Resonance Imaging and Energy Catalysis Through Chemical Design

Abstract: Synthetic chemistry is a powerful tool for realizing molecules and materials with novel functions for addressing grand challenges in biomedical, environmental, and energy science. This presentation will discuss two avenues by which specific molecular and materials functions may be implemented by chemical design to create chemical systems with advanced properties.

Part 1: Variation of properties such as temperature, pH, and redox status in the tissue microenvironment is closely associated with a number of biological processes and diseases. Magnetic resonance imaging (MRI) probes that can alter their magnetic properties in response to specific changes in their surrounding environment provide new opportunities for overcoming the current limitations of traditional MRI contrast agents, namely relatively low sensitivity and poor specificity. This presentation will describe the employment of spin-crossover iron complexes for monitoring temperature using 19F NMR chemical shift and dinuclear cobalt complexes for the ratiometric quantitation of solution pH in a noninvasive manner.

Part 2: Global adoption of sustainable energy technologies and chemical industries relies heavily on the efficiency by which small gas molecules such as CO2, N2, O2, and H2 can be converted to fuels, chemicals, and electricity. Electrocatalysis of such gas molecules driven by renewable energy sources offers a promising route, however, performing such reactions in aqueous environments has been limited by the low solubilities of gases in water. This presentation will describe a strategy of harnessing the high gas capacities of microporous water—aqueous porous liquids comprising microporous nanocrystals—for engendering current enhancement in the electroreduction of O2 in water.

Dr. Agnes Thorarinsdottir

Inorganic, Seminars
Dr. Agnes Thorarinsdottir
Dr. Agnes Thorarinsdottir