The novel iron-based catalyst exhibits superior performance for ammonia (NH3) synthesis compared to a well-established, century-old counterpart. By designing this new catalyst with an inverse ...

Researchers have used a groundbreaking geometric deep learning method, MaSIF, to design proteins that bind specifically to ...

The global climate crisis, driven by the depletion of fossil fuels and rising atmospheric CO2 levels, has intensified the ...

Scientists have created a catalyst for hydrogen generation from ammonia that becomes more active with time, and by counting atoms revealed changes that boost the catalyst's performance.

A biochemical pathway is a series of chemical reactions that occur within a cell, where the product of one reaction becomes the reactant in the next. Each reaction in the pathway is catalysed by a ...

Combined with a catalyst for water splitting, developed by US-based Baylor University Department of Chemistry and Biochemistry Professor Paul Maggard, the study paves the way toward carbon-free ...

MA Biodesign explores bio-informed design strategies as a driver for sustainable innovation. From October 2024, you can only apply for a maximum of 3 postgraduate courses each year at UAL (excluding ...

This project has been introduced in undergraduate biochemistry research and teaching labs for 4 years. Most students have learned the basic supercomputer skills as well as structure data analysis ...

Welcome to Seeking Alpha's Catalyst Watch - a breakdown of some of next week's actionable events that stand out. Read more about the events that may impact stock prices next week.

With extensive experience testing a range of design apps, my team and I have put the best graphic design software to the test. And while it will comes as no surprise that Adobe Photoshop and ...

Molybdenum carbide (MoC) nanoclusters embedded in porous nitrogen-doped carbon fibers with atomic Zn-N 4 sites exhibit a physicochemical confinement effect on iodine species and enhance electron ...

Pedersen at the University of Copenhagen, and Wen Luo at Shanghai University have developed a novel copper-based catalyst that can selectively convert CO 2 into acetaldehyde with an impressive ...