Hydrogen peroxide (H2O2) has a wide range of important applications in various fields
including chemical industry, environmental remediation, and sustainable energy …

Direct electrochemical production of hydrogen peroxide (H2O2) through two‐electron
oxygen electrochemistry, for example, the oxygen reduction in fuel cells or water oxidation in …

On-site production of hydrogen peroxide (H2O2) using electrochemical methods could be
more efficient than the current industrial process. However, due to the existence of scaling …

Nanosized palladium (Pd)-based catalysts are widely used in the direct hydrogen peroxide
(H2O2) synthesis from H2 and O2, while its selectivity and yield remain inferior because of …

Owing to the special structural characteristics and maximized efficiency, atomically
dispersed catalysts (ADCs) with different atom sizes ranged from the single atom to clusters …

The direct synthesis of hydrogen peroxide (H2+ O2→ H2O2) may enable low-cost H2O2
production and reduce environmental impacts of chemical oxidations. Here, we synthesize a …

Globally, water disinfection is reliant on chlorination, but requires a route that avoids the
formation of chemical residues. Hydrogen peroxide, a broad-spectrum biocide, can offer …

Solvent molecules interact with reactive species and alter the rates and selectivities of
catalytic reactions by orders of magnitude. Specifically, solvent molecules can modify the …

The production of H2O2 via the electrochemical oxygen reduction reaction (ORR) presents
an attractive decentralized alternative to the current industry‐dominant anthraquinone …

Electrochemical oxygen reduction offers an efficient and environmentally friendly route for
hydrogen peroxide (H2O2) generation. This electrochemical process can produce H2O2 on …