Over $150 billion in investment and 5x BESS growth anticipated by 2030 are driving battery manufacturers to pursue faster, ...

Converting carbon dioxide from greenhouse gas emissions into valuable organic products is one step toward mitigating the ...

Tezcan: The most unexpected thing has been that our original ideas from when my lab first started at UC San Diego not only ...

StoreDot revealed in a release via EINPresswire that it has integrated a silicon-dominant anode into its proprietary battery ...

The UC Santa Barbara associate professor’s research centers on solar fuels that capture sunlight and convert it into usable heat.

NASA approves new tests for Dragonfly, the nuclear drone that will explore the chemistry of life on Titan starting in 2028.

David Baker’s Nobel Prize-winning lab has designed protein on/off switches as a tool for tunable cancer immunotherapies and biosensors.

Yuanyuan Wang and Wenlei Zhu's group at Nanjing University, China, and Yuehe Lin at Washington State University, USA, ...

Researchers have found a breakthrough process that shrinks microchips to unprecedented scales, unlocking the potential for faster, more efficient, and more affordable electronics.

A University of Washington institute led by Nobel Laureate David Baker engineers an AI-designed 'off switch' for cancer drugs ...

Maximizing efficiency, single-atom catalysts leverage individual metal atoms for enhanced catalysis, reducing waste and improving sustainability in chemistry.

Laser written high entropy oxide electrodes with tree like nanoarrays integrate structure and chemistry to achieve efficient ...