Catholyte Molecular Design for Non-Aqueous Mg-Organic Hybrid Redox Flow Batteries

Author:
GEORGE MASON UNIVERSITY

Date
05/22/2023

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­Chao Luo, Assistant Professor, Chemistry and Biochemistry, George Mason University

­Chao Luo, Assistant Professor, Chemistry and Biochemistry, is set to receive funding from the National Science Foundation for the project: "Collaborative Research: Catholyte Molecular Design For Non-Aqueous Mg-Organic Hybrid Redox Flow Batteries."

Luo is proposing a new organic molecule structure design concept for redox flow batteries, which are promising for grid-scale energy storage. The research outcomes will afford low-cost, abundant, sustainable, and high-performance organic catholyte materials for non-aqueous Mg-organic hybrid redox flow batteries.  

His goal is to design, synthesize, and characterize core-shell structured organic molecules at both the molecular level and device-level, to gain a fundamental understanding of the structure-property-performance relationship of the core-shell structured organic molecules. He also aims to leverage this understanding for designing novel organic catholytes. Additionally, he plans to realize a transformative open simple protocol for remote access to graphical user interfaces that can be used for future energy storage applications.

Luo will receive $260,000 from NSF for this project. Funding will begin in July 2023 and will end in June 2026.

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