Category: Computing and Simulation
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Toward protein nanomachines: just add charge
Added electrical charges can harness a protein’s shape and chemical properties to build interesting structures.
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Sustainable biofuel: Design principles for bioengineered microbe catalysts
The US has been stuck on corn kernels for producing ethanol, rather than woody “cellulosic” material. Efficient microbes for converting cellulose to biofuel could change the game.
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Two awards grant more than 1.5 million hours on two of the world’s fastest supercomputers
One is a competitive U.S. Department of Energy’s Office of Science award that will power Michigan Engineering research by providing more than 1.5 million node hours combined on two of the world’s most powerful supercomputers.
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Findings in mice show pill for breast cancer diagnosis may outperform mammograms
A new kind of imaging could distinguish aggressive tumors from benign, preventing unnecessary breast cancer treatments.
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Twisted semiconductors for future moving holograms
Holographic displays need twisted light. Twisted semiconductors assembled with the help of amino acids may enable them.
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Keeping drugs on the job
Computer simulations developed at the University of Michigan reveal how well drug additives stop the active ingredients from crystallizing in the digestive tract.
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Most complex nanoparticle crystal ever made by design
Extraordinary nanoparticle crystals are possible by harnessing particle shape in addition to using DNA as smart glue.
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A crystal ball for crystal formation
Studying the role of shape in self-assembly came up accidentally as Sharon Glotzer and her colleagues were studying the properties of semiconducting nanoparticles their U-M colleagues produced.
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Fighting tuberculosis
The approved antibiotic regimens may be failing to eradicate tuberculosis bacteria too often. A computer model could help fight antibiotic resistance