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Stanford Institute for Materials & Energy Sciences (SIMES) RSS feed

SIMES researchers study complex, novel materials that could transform the energy landscape by making computing much more efficient or transmitting power over long distances with no loss, for instance.

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Polarons, bubbles of distortion in a perovskite lattice.

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A SLAC/Stanford manufacturing technique could help make inexpensive polymer-based solar cells an attractive alternative to silicon-crystal wafers.

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SUNCAT and SIMES researchers have received funding from Stanford's Global Climate and Energy Project to support research related to generating renewable fuels.

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In separate studies, researchers at Stanford and the University of Wisconsin-Madison report advances on chemical reactions essential to fuel-cell technology.

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Researchers discovered that adding two chemicals to the electrolyte of a lithium metal battery prevents the formation of dendrites – “fingers” of lithium that...

Image - concept of dendrites v pancakes
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Results from SIMES theorists pave the way for experiments that create and control new forms of matter with light.

Depiction of carbon atoms arranged in a honeycomb pattern to form graphene
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SIMES principal investigators Zhi-Xun Shen, Shoucheng Zhang and Aharon Kapitulnik were elected to the National Academy of Sciences.

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SLAC study of tiny nanocrystals provides new insight on the design and function of nanomaterials

Image - In this illustration, intense X-rays produced at SLAC's Linac Coherent Light Source strike nanowires to study an ultrafast "breathing" response in the crystals induced quadrillionths of a second earlier by pulses of optical laser light.
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Two new research projects support the Stanford Institute for Materials and Energy Sciences in the study of exotic new materials that could enable future...

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Stanford and SLAC engineers observed electrons at work during catalytic reactions. Their findings challenge long-held theories about some catalysts, opening the door to new...

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SLAC study shows the so-called ‘pseudogap’ hoards electrons that otherwise might pair up to carry current through a material with 100 percent efficiency.

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A study at the Department of Energy’s SLAC National Accelerator Laboratory suggests for the first time how scientists might deliberately engineer superconductors that work...

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Ultimate Goal: A Super-efficient Way to Conduct Electricity at Room Temperature

SLAC Staff Scientist Wei-sheng Lee