Bacterial Enzyme Converts CO2 Into Carbon Compounds 20x Faster Than Photosynthesis
Researchers discover that a spot of molecular glue and a timely twist help a bacterial enzyme convert carbon dioxide into carbon compounds 20 times faster…
Researchers discover that a spot of molecular glue and a timely twist help a bacterial enzyme convert carbon dioxide into carbon compounds 20 times faster…
“This study really sheds light on how we can design and manufacture battery electrodes to obtain a long cycle life for batteries,” said Feng Lin,…
Unhackneyed compartmentalization generated by audible sound allows the enzyme reactions to be controlled spatiotemporally. Spatiotemporal regulation of multistep enzyme reactions through compartmentalization is essential in…
Palladium oxide catalyst cleans up emissions and enhances water vapor tolerance. A newly developed catalyst with unique, atomic-sized “rafts” does a better job than current…
According to folklore, silver bullets kill werewolves, but in the real world, researchers want to harness this metal to combat another deadly foe: bacteria. Scientists…
Simplifying complex energy storage interfaces to develop better devices Every technology that runs our world requires energy on demand. Energy must be stored and made…
Chirality preference in living matter may arise spontaneously to optimize energy harvesting. When one holds a right hand in front of a mirror, the reflected…
Imperial researchers have developed a new hydrogen fuel cell that uses iron instead of rare and costly platinum, enabling greater use of the technology. Hydrogen…
Researchers from Skoltech, Carnegie Institution of Washington, Howard University, the University of Chicago, and the Chinese Academy of Sciences Institute of Solid State Physics have…
New electronegativity scale makes weird world of high-pressure chemistry simple. A Skoltech professor and his Chinese colleagues have revised a key chemical concept, electronegativity, and…
The reaction, which is an alternative to procedures that require harsh chemical conditions, provides a new path to producing valuable phosphorus-containing molecules. MIT chemists have…
Prof. WANG Zhenyang’s research group from Hefei Institutes of Physical Science (HFIPS) of the Chinese Academy of Sciences (CAS) has enhanced the energy storage capacity…
A new membrane material could make purification of gases significantly more efficient, potentially helping to reduce carbon emissions. Industrial processes for chemical separations, including natural…
Edible, fluorescent silk tags can suss out fake medications. Recent developments such as the explosion of online pharmacies and supply chain issues have made it…
Prospects to leverage overcoming the limitations of ‘zinc-air batteries’, promising next-generation batteries. Developed bifunctional electrocatalyst with staggered p-n heterojunction applying solar cell/semiconductor interface characteristics. Zinc-air…
Yogesh Surendranath and his team are bringing powerful techniques of electrochemistry to bear on the problem of designing catalysts for sustainable fuels. One challenge in…
A green method for producing crystalline supramolecular fibers promises to make polymer production more sustainable. A polymer that catalyzes its own formation in an environmentally…
An efficient machine-learning method uses chemical knowledge to create a learnable grammar with production rules to build synthesizable monomers and polymers. Chemical engineers and materials…