A new technique selectively removes nitrogen atoms from rotaxanes and forms a stabilising carbon–carbon bond, without ...

Over the last few years, the SARS-CoV-2 virus, responsible for COVID-19, has undergone significant changes, evolving from the ...

What is DNA, and how does it work? You don't need a degree in genetics to understand. Here, we'll give an overview of DNA and ...

New material developed by UC Berkeley scientists enhances carbon capture efficiency, offering a breakthrough in removing CO2 ...

Scientists have set up and observed a single electron bond between two carbon molecules. A traditional “single bond” is actually two electrons—one from each atom. This is one electron. The fragile ...

United States Department of Chemistry and Chemical Biology, Rutgers, the State University of New Jersey, Piscataway, New Jersey 08854, United States ...

Carbon capture and storage technologies have become crucial to addressing the growing challenge of climate change, ...

(COF stands for “covalent organic framework,” an extra-strong chemical structure that Yaghi’s lab developed.) The material ...

and then tertiary structure. Covalent modification of cysteine by electrophilic small molecules enables broad targeting of the unliganded proteome. A study reveals that cysteine reactive ...

A new paper from UChicago and Argonne National Laboratory shows a novel way of bonding diamonds directly to materials that integrate easily with either quantum or conventional electronics. Here, an ...

Hierarchical structures in particular enhance photocatalytic ... dynamic covalent chemistry (DCC), i.e., the formation of reversible covalent bonds with control over the chemical equilibrium. This ...