Hydrogen peroxide (H 2 O 2) packs so much chemical energy into a small space that it is powerful enough to fuel rockets. But this same ability to concentrate energy also makes hydrogen peroxide useful ...

(Left) Schematic representation of the structure of a porous carbon catalyst with boron doping on the surface and carbon walls forming the mesopores. (Right) Mesopore structure and atomic-scale ...

The oxygen reduction reaction (ORR) was enhanced through the development of a novel class of heterogeneous molecular catalysts incorporating an integrated magnetic field. Traditional methods for ...

A new mild and self-recycling method boosts common carbon black into a highly selective catalyst for green chemical production, identifying structural defects as the key to success By carefully tuning ...

A sprinkling of magnetic nanoparticles is just enough to power up catalysts, so they can make hydrogen peroxide production more efficient. Researchers have achieved a breakthrough in improving the ...

Hydrogen peroxide, a versatile chemical used in a wide range of applications—from medical disinfectants to semiconductor manufacturing and water treatment—is an essential substance with global annual ...

A photoelectrochemical device uses sunlight, water, and oxygen to produce hydrogen peroxide efficiently, stably, and at scalable rates without grid electricity. (Nanowerk Spotlight) Hydrogen peroxide ...

The direct synthesis of hydrogen peroxide from hydrogen and oxygen represents a paradigm shift away from the centralised anthraquinone process towards decentralised, on-demand oxidant production. By ...

Imagine a scenario where the future of sustainable space travel is powered not by conventional hydrogen, but by its ...