The results show how a particle’s surface and interior influence each other, an important thing to know when developing more robust batteries.

The prestigious awards provide at least $2.5 million over five years in support of their work in understanding photochemical reactions and improving accelerator beams.

A new lithium-based electrolyte invented by Stanford University scientists could pave the way for the next generation of battery-powered electric vehicles.

Understanding nature’s process could inform the next generation of artificial photosynthetic systems that produce clean and renewable energy from sunlight and water.

The SLAC/Stanford scientists are among 120 new members of an organization that advises the nation on science and technology issues.

These inexpensive photosensitizers could make solar power and chemical manufacturing more efficient. Experiments at SLAC offer insight into how they work.

Replacing today’s expensive catalysts could bring down the cost of producing the gas for fuel, fertilizer and clean energy storage.

SLAC/Stanford scientists and their colleagues find a new way to efficiently convert CO2 into the building block for sustainable liquid fuels.

Made with ‘Jenga chemistry,’ the discovery could help crack the mystery of how high-temperature superconductors work.

The coating significantly extends the battery's life and reduces the problems that cause batteries to burst into flames.

The SLAC scientists will each receive $2.5 million for their research on fusion energy and advanced radiofrequency technology.

This early-career scientist has undertaken challenging projects with significant implications for lithium-ion batteries.