MSE Prof. Liangbing Hu Granted $5.6M in DOE ARPA-E Funding
The University of Maryland (UMD) and UMD start-up, HighT-Tech, announced receipt of a total $5.6 million in funding from the U.S. Department of Energy Advanced Research Projects Agency-Energy (ARPA-E). The funding is part of the ARPA-E OPEN 2021 program, which prioritizes funding technologies that support novel approaches to clean energy challenges. The selected projects will advance energy storage and catalysis technology respectively.
“I’m thrilled and thankful to have received this funding, which my team will use to develop further the cellulose batteries and high entropy catalyst” said Liangbing Hu, Herbert Rabin Distinguished Professor of Materials Science and Engineering (MSE) at UMD, Director of the Center for Materials Innovation, and Founder of both HighT-Tech and CelluCell. “We hope to open new windows of applications in these technologies.”
The UMD project, “Fast-Charging, Solid-State, Roll-to-Roll Processed Li Metal Batteries Enabled by Intercalated Ions in Cellulose Molecular Channels,” was endowed with $2.6 million. Hu’s team aims to fabricate fast-charging batteries in which the electrolyte comprises a cellulose fiber-based ion conductor. The cellulose-based ion conductor overcomes the gap from current solid-state electrolytes to solid-state batteries due to the use of natural materials, which are easy to process and are compatible with conventional coating processes. This approach could enable high conductivity at room temperature, high energy density, and roll-to-roll manufacturing of nano-paper batteries at a low cost to consumers.
HighT-Tech’s project – “Scalable Manufacturing of High-Entropy Alloy Catalysts for Ammonia Oxidation” – was granted $3.0 million to create scalable manufacturing processes of high-entropy alloy (HEA) catalysts for ammonia oxidation with enhanced catalytic activity, selectivity and stability. The HEA catalysts could reduce the use of precious metals, enhance energy efficiency, and improve the economics and environmental impact of chemical industries. This technology includes scalable high-temperature thermal shock manufacturing of uniformly mixed multi-metallic nanoparticle HEA catalysts; reduced precious metal contents by greater than 50% and reduced the operating temperature; and enhanced selectivity to desired reaction products and extended catalyst lifetime. What’s more, these processes could enable ~$3 million in savings of annual operating costs in a typical nitric acid plant, and help to promote sustainability in U.S. energy and chemical industries and manufacturing.
The addition of these two awards bring UMD's total to 35 ARPA-E awards, totaling nearly $80 million in funding since ARPA-E's inception.
ABOUT DOE’S ARPA-E PROGRAM
For a complete list of Open 2021 Projects, follow this link.
February 16, 2022