Supply Chain Threat of PRC Influence for Digital Energy Infrastructure: Evaluating the Technical Risk Landscape........................................................................................................ 55 Grid and Utility-Scale Operational Consequence of BESS Functions........................ 57
Our group investigates, establishes and assesses new processes, mechanisms and systems for storing energy, as well as develop high performance catalysts to enhance the involved energy conversion processes.
The forthcoming solicitations will drive innovation in reliable energy technologies, contribute to lower energy costs, and strengthen American leadership in artificial intelligence.
Knowledge-based rational design of (electro-)catalytic processes for the renewable energy storage applications, achieved by combining the contribution of different disciplines, with in-depth characterization and theoretical modelling of the
This review covers the recent developments in catalysis, water splitting, fuel cells, batteries, supercapacitors, and hydrogen storage enabled by HEMs covering metallic, oxide, and non-oxide alloys.
This Policy Flash updates the STRIPES Use Policy Acquisition Letter (AL) AL2025-04, to provide updated language addressing the cancellation or termination of solicitations/awards.
Catalysis is integral to advancing energy storage technologies. By addressing challenges related to cost, durability, and efficiency, catalysts can significantly improve the performance of batteries, fuel cells, and other energy storage systems.
ttent energy supply and increasingly unreliable grid require swift action. The United States'' ability to remain at the forefront of technological innovation depends on a rel
The Virginia Clean Cities works with vehicle fleets, fuel providers, community leaders, and other stakeholders to identify community-driven choices that save energy and promote the use of alternative fuels and advanced vehicle technologies in transportation.
While solar energy is attractive owing to its abundance, its intermittency necessitates the development of a scalable storage mechanism, which presently bottlenecks the implementation of solar energy at the scale of human consumption.
In this collection, we aim to spotlight recent advances in catalyst development for energy conversion technologies, a critical domain in addressing global energy and environmental challenges.
This review covers the recent developments in catalysis, water splitting, fuel cells, batteries, supercapacitors, and hydrogen storage enabled by HEMs covering metallic, oxide, and non-oxide alloys.
WASHINGTON, D.C. — The U.S. Department of Energy (DOE) today announced the publication of the 2024 Report on U.S. Data Center Energy Use produced by Lawrence Berkeley National Laboratory (LBNL) which outlines the energy use of data centers from 2014 to 2028.
In the dynamic realm of materials science, novel nanomaterials possess the transformative potential to reshape various industries, ranging from energy storage to catalysis [...]
Knowledge-based rational design of (electro-)catalytic processes for the renewable energy storage applications, achieved by combining the contribution of different disciplines, with in-depth characterization and
In the dynamic realm of materials science, novel nanomaterials possess the transformative potential to reshape various industries, ranging from energy storage to catalysis [...]
Dark catalytic reactions generally depend on the photo-induced charge and dark-discharge processes of the energy storage medium. Therefore, the round-the-clock catalysts can be regarded as the organic combination of energy storage and catalysis. Redox pairs are the most common energy storage medium.
"Developing faster, more accurate resource evaluation tools, and creating a new more powerful class of magnetic materials will enable America to unlock domestic reserves, strengthen supply chains, and enhance U.S. energy and economic security."
The present work provides new ideas for the structural design of piezoelectric crystals to build energy storage heterojunction catalysts and to realize efficient dark-full-spectrum catalytic applications.
The U.S. Department of Energy today announced its intent to issue notices of funding opportunities totaling nearly $1 billion to advance and scale mining, processing, and manufacturing technologies across key stages of the critical minerals and materials supply chains.
In the dynamic realm of materials science, novel nanomaterials possess the transformative potential to reshape various industries, ranging from energy storage to catalysis.
The Energy Storage, Harvesting and Catalysis group conducts cutting edge research in emergent technologies to facilitate the energy transition: from materials to reactors of disruptive electrochemical and chemical energy storage devices contributing to the society descarbonization by reducing CO2 emissions or reusing CO2.
This review covers the recent developments in catalysis, Editor’s Choice 2023: Advancing electrocatalysts for a sustainable future. 2021 Journal of Materials Chemistry A most popular articles
In electrochemical energy storage systems, high-entropy oxides and alloys have shown superior performance as anode and cathode materials with long cycling stability and high capacity retention. Also, when used as metal hydrides for hydrogen storage, remarkably high hydrogen storage capacity and structural stability are observed for HEMs.
