A paper titled "Functional implications of unusual NOS and SONOS covalent linkages found in proteins," by Matthew D. Lloyd, Kyle S. Gregory, and K. Ravi Acharya, from the University of Bath Department ...

Bond polarity, driven by differences in electronegativity, explains why some molecules dissolve in water, why others don’t, and why substances have different boiling points. Polar bonds have unequal ...

A group of researchers at the University of Tokyo have spent years testing the limits of chemical bonds. And now, after years of work, they've finally explored an idea originally proposed in 1931: a ...

In a recent paper in ACS Central Science, researchers report a strategy for targeting covalent modifications to specific sites on proteins. The modifier molecules use an antibody to target a protein ...

Researchers have chemically linked 2D materials using a molecular "velcro," resulting in a device with improved optoelectronic properties. The device, made of palladium nanosheets covalently bonded ...

Prior to 2000, many drugs that formed a covalent bond with targets did so non-selectively, which often led to undesired side effects when compared to non-covalent drugs. This led to the belief that ...

From the salt in your kitchen to cutting-edge thermoelectrics, chemical bonding shapes the materials we rely on every day. Researchers are now uncovering how tweaking these bonds can unlock new ...

As the levels of carbon dioxide in the environment rapidly rise and the climate consequences of that rise become increasingly apparent, research and investment into carbon capture strategies have also ...