The CoPc/CB-Mag catalyst greatly enhanced the efficiency of the reaction, producing an impressive 90 % H 2 O 2, the researchers found. Notably, the catalyst uses up to seven orders of magnitude less ...

(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 ...

By fine-tuning the surroundings of single cobalt atoms, researchers reveal how tiny design changes can steer oxygen reactions toward cleaner and more efficient hydrogen peroxide production.

Hydrogen peroxide is widely used but energy-intensive to produce. A new machine-learning framework helps find catalysts that can make it from water and electricity, and identifies one with about 90% ...

Hydrogen peroxide (H2O2) 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 ...

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 ...

Ensuring that water is safe to use and consume can be a real chore, especially for those who live in impoverished areas without access to safe drinking water. Here is where researchers at Stanford ...

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 ...

Ever wondered why hydrogen peroxide suddenly erupts into thick foam? This video explains how catalysts like potassium iodide ...

While hydrogen peroxide (H 2 O 2) has numerous applications, its industrial production is costly and energy-intensive due to rare metal catalysts. Zinc is an abundant and historically-used element … ...