Chemistry and catalysis

Developed at SSRL, the method could help make those electrochemical conversions more robust and efficient.

Advanced imaging technique reveals catalyst degradation processes, addressing a key barrier to converting carbon dioxide into liquid fuel.

Following a boom in catalysis users at SSRL, Beam Line 10-2 has been transformed and outfitted with new technologies. 

Nickel dopants could improve sustainable production of ethylene oxide, a chemical widely used in industrial manufacturing.

Supported by SLAC’s catalysis group, researchers have discovered a promising method to remove contaminants during the making of polymers.

SSRL scientists have figured out how platinum electrodes dissolve, potentially paving the way for renewable energy improvements.

SLAC researchers help develop an automated analytical method to speed the discovery process in single atom catalysts.  

For nearly 50 years, Hodgson has illuminated the synchrotron radiation community through his pioneering research, innovations, leadership, advocacy and mentorship at the Stanford Synchrotron Radiation Lightsource.

The results, which show how the protein adds nucleotides to the growing RNA chain, could lead to more effective medications.

Supported by SLAC's catalysis group Co-ACCESS, researchers discover new ways to boost the performance of catalysts that turn carbon dioxide into methanol. 

Election to the academy honors exceptional scholars who discover and advance knowledge and who apply knowledge to the problems of society.

The team reduced the amount of expensive platinum group metals needed to make an effective cell and found a new way to test future fuel cell innovations.