When water is split electrolytically, the result is typically hydrogen -- and 'useless' oxygen. Instead of oxygen, you can also produce hydrogen peroxide, which is required for many branches of ...

Photocatalytic production of hydrogen peroxide harnesses solar energy to convert water and dioxygen into H₂O₂ via sequential light-driven redox reactions. Central to this process are two ...

H 2 O 2 is a widely used green chemical with important applications in environmental remediation, disinfection, and chemical synthesis. The conventional anthraquinone process, although industrially ...

A new study has put a remarkable and unexpected chemical genesis on more solid footing. Back in 2019, Stanford University researchers and colleagues revealed the surprising discovery that hydrogen ...

Cornell scientists have discovered a potentially transformative approach to manufacturing one of the world's most widely used chemicals—hydrogen peroxide—using nothing more than sunlight, water and ...

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 ...

The question of whether water can form hydrogen peroxide should be answered by thermodynamics (see C&EN, June 13, 2022, page 3). If a reaction is possible (spontaneous), then the change in the Gibbs ...

Hydrogen peroxide fuel cells harness the reversible redox chemistry of H₂O₂ to generate electrical energy in compact, liquid‐fed architectures. At the heart of these devices lies the interplay between ...