SUNCAT Center for Sustainable Energy through Catalysis
SLAC, Stanford scientists discover that bombarding and stretching a catalyst opens holes on its surface and makes it much more reactive. Potential applications include making hydrogen fuel.
SUNCAT and SIMES researchers have received funding from Stanford's Global Climate and Energy Project to support research related to generating renewable fuels.
SLAC and the SUNCAT Center for Interface Science and Catalysis supported creation of a new carbon material that significantly improves the performance of batteries and supercapacitors.
Scientists have used an X-ray laser at SLAC to get the first glimpse of the transition state where two atoms begin to form a weak bond on the way to becoming a molecule.
Jens Nørskov, director of the SUNCAT Center for Interface Science and Catalysis at Stanford and SLAC, has been named a member of the National Academy of Engineering, one of the highest professional distinctions for engineers.
The SLAC and Stanford professor and SUNCAT director is being honored for groundbreaking work in catalysis, which promotes chemical reactions in thousands of industrial processes.
SLAC scientists are among the researchers to receive funding to advance solar cells, batteries, renewable fuels and bioenergy.
Scientists at SLAC and in Denmark have developed an alternative fuel cell catalyst that’s five times more active than pure platinum and uses much less of the expensive metal.
Scientists have found a way to estimate uncertainties in computer calculations that are widely used to speed the search for new materials for industry, electronics, energy, drug design and a host of other applications.
Stanford researcher Thomas F. Jaramillo has been named SUNCAT’s new deputy director for experiments. He succeeds SLAC’s Anders Nilsson.