Heterogeneous catalysts speed up chemical reactions by being in a different state than the reactants. They are efficient and ...

Machine learning (ML) transforms the design of heterogeneous catalysts, traditionally driven by trial and error due to the complex interplay of components. BIFOLD ...

Defect engineering in catalysts can enhance performance by manipulating vacancy configurations, but controlling them is challenging. The authors report triple O-Ti-O vacancies in Ni-doped TiO 2 ...

Scientists have created a catalyst for hydrogen generation from ammonia that becomes more active with time, and by counting atoms revealed changes that boost the catalyst's performance.

Researchers developed a sodium-doped amorphous SiBN catalyst, showcasing its potential for small molecule activation and ...

This review summarizes the catalytic performance of various metal-based catalysts in the CO2-assisted oxidative dehydrogenation of light alkanes, with the goal of identifying catalyst systems that ...

Dr. Pavel Kots, assistant professor, Department of Chemical and Biomolecular Engineering at the New York University Tandon School of Engineering, will give a seminar titled, "Repurposing Old Catalytic ...

Colloids and Interfaces, Transport in porous/nonporous materials, Single-molecule microscopy, Separations, Biomolecules at interfaces, Surface modification by self-assembly, Heterogeneous ...

Heterogeneous catalysts speed up chemical reactions by being in a different state than the reactants. They are efficient and stable, even under challenging conditions such as high temperature or ...

Transition metals have long been used as catalysts to activate small molecules and turn them into valuable products. However, ...