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 ...

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 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 ...

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 ...

Chemists have synthesised new metal-free photocatalysts that can be used to produce hydrogen peroxide from pure air and natural water 1. Using the Sun’s energy, the catalysts convert air and water ...

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

I was fascinated by the idea of jet packs when I was a kid. They were sci-fi magic, and the idea that you could strap into an oversized backpack wrapped in tinfoil and fly around was very enticing.