MIT researchers have developed a new catalyst that converts methane into polymers at room temperature and atmospheric ...

They mainly studied the significant role of manganese-based oxidase nanozyme (MnN) in stitching collagen, a vital structural ...

Chemical engineers designed a catalyst that can convert methane into useful polymers, which could help reduce greenhouse gas emissions.

The research extends the functional capabilities of nanozymes, shifting the focus from small molecule substrates to complex ...

Earlier this year, they released that data as training fodder in a competition aimed at determining whether any AI models for predicting small molecule interactions with proteins were really ...

The X-ray Crystallography Center was fully renovated in November 2007 and houses a single-crystal X-ray diffraction system, a brand-new Bruker D8 VENTURE diffractometer, providing X-ray diffraction ...

"Small-molecule" drugs are up for price caps nine years after hitting the market, versus 13 for large-molecule biologics. This discrepancy could wallop cancer research. It can take drugmakers 15 ...

On the surface, these deficiencies are seemingly insurmountable, but as a growing number of small-molecule catalysts continue ... oxidative nitrogen transfer to organic molecules.

"Using small quantities of a catalyst derived from copper, an abundant, innocuous metal, we developed an efficient, direct methodology," pointed out the UPV/EHU Professor of Organic Chemistry.

Aromatic rings are flat rings in organic ... sensitive catalyst, we were able to precisely insert nitrogen, oxygen and carbon ...