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 ...

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 ...

Chemists and engineers writing in the journal Science reports a breakthrough in the decades-long effort to produce H2O2 directly from oxygen and hydrogen and to limit its decomposition after ...

Hydrogen peroxide (H₂O₂) plays key roles in aquatic systems, including metal redox cycling and degradation of organic matter into bioavailable forms. Abiotic photoproduction, via photo-oxidation of ...

The use of catalysis to convert chemical energy into motion on the nanometer scale is widespread in nature. The synthesis of adenosine triphosphate in living cells, for example, relies on the power of ...

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 ...

MADISON, Wis. -- Bottles of dilute hydrogen peroxide sit on shelves in medicine cabinets across the world, yet synthesizing the chemical at the large scale requires a surprisingly complicated process ...