The DCL catalyst is well-suited for aerospace and defense applications, where H₂O₂-based propulsion offers a safe, high-thrust alternative to conventional fuels. DCL's revolutionary catalyst for ...

By fine-tuning the surroundings of single cobalt atoms, researchers reveal how tiny design changes can steer oxygen reactions ...

Hydrogen peroxide (H2O2) is a versatile chemical in modern industry, widely applied in many different fields. To date, H2O2 is industrially manufactured by an indirect process that involves the ...

Chemical and biological engineers have uncovered new insight into how the compound hydrogen peroxide decomposes. This advance could inform efficient and cost-effective single-step strategies for ...

National University of Singapore (NUS) researchers have developed a microporous covalent organic framework with dense donor–acceptor lattices and engineered linkages for the efficient and clean ...

Researchers are contributing to the development of more environmentally friendly catalysts for the production of plastic and resin precursors that are often derived from fossil fuels. The key to their ...

The catalytic decomposition of hydrogen peroxide can be dangerous at high concentrations, but there is a safe version of Camille Schrier’s demonstration that is still fun. By Knvul Sheikh When she ...

DCL's innovative technology is poised to transform industries reliant on clean propulsion, fast, high-efficiency chemical reactions, and sustainable energy applications. Dr. Shazam Williams, Technical ...