Process to customize molecules does double duty
Inspired by your liver and activated by light, a chemical process developed in labs at Rice University and in China shows promise for drug design and the development of unique materials.
Inspired by your liver and activated by light, a chemical process developed in labs at Rice University and in China shows promise for drug design and the development of unique materials.
Materials Science
Jun 22, 2022
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54
Rensselaer Polytechnic Institute researchers have developed an accessible way to make N95 face masks not only effective barriers to germs, but on-contact germ killers. The antiviral, antibacterial masks can potentially be ...
Polymers
Jun 21, 2022
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213
Kobe University researchers have successfully developed a tyrosine chassis (a strain of microorganism with high tyrosine productivity) in the yeast Pichia pastoris through rational engineering. In addition they used this ...
Biochemistry
Jun 10, 2022
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42
Researchers at Nagoya University in Japan have developed a new chemical-only process that may represent an important breakthrough in creating customized mRNA vaccines for a variety of diseases and allow for the inexpensive ...
Biochemistry
Jun 8, 2022
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555
The U.S. 9th Circuit Court of Appeals on Friday blocked fracking off the California coast, ruling that the federal government must complete a full environmental review before approving permits for such offshore oil drilling ...
Environment
Jun 6, 2022
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24
A new study co-led by a Cedars-Sinai investigator has identified a gene that plays an important role in a biological pathway involved in embryo development. The gene's impact at the cellular level could explain why some babies ...
Cell & Microbiology
May 24, 2022
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126
An international team of scientists is using porous, sponge-like materials that can trap carbon dioxide in their cavities while allowing other gases such as nitrogen to pass through.
Materials Science
May 23, 2022
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644
For years, scientists have been attempting to engineer tiny, artificial cilia for miniature robotic systems that can perform complex motions, including bending, twisting, and reversing. Building these smaller-than-a-human-hair ...
Biochemistry
May 6, 2022
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545
Simon Fraser University researchers are yielding new insights into how chemical reactions can be understood and guided. Results of their interdisciplinary approach have been published in Physical Review Letters.
General Physics
May 2, 2022
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217
Polaritons offer the best of two very different worlds. These hybrid particles combine light and molecules of organic material, making them ideal vessels for energy transfer in organic semiconductors. They are compatible ...
Optics & Photonics
Apr 29, 2022
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240