Scientists have directly measured the minuscule electron sharing that makes precious-metal catalysts so effective. Their new technique, IET, reveals how molecules bind and react on metal surfaces with ...

Mitsui Chemicals Catalysis Science Awards were established by Mitsui Chemicals in 2004 to recognize researchers who have made outstanding contributions to the progress in catalysis science. The awards ...

New research in Angewandte Chemie reveals the importance of abrasion within mechanochemical catalysis processes, prompting ...

A team of researchers from the University of Minnesota Twin Cities College of Science and Engineering and the University of Houston's Cullen College of Engineering has discovered and measured the ...

Modern life is inconceivable without plastics. Used in countless applications, plastics underpin many aspects of our lives and even the green technologies being deployed to tackle climate change. But ...

Earth-abundant metal catalysis is considered essential to a sustainable future with the low availability and high cost of precious-metal catalysts pointing to a critical need for greener alternatives.

Abstract: Heterogeneous catalysis is essential to industrial chemical processes, from those that transform petroleum into fuels and chemicals to those, like the Haber Bosch process, that create ...

Mitsui Chemicals invites applications for the 2026 Catalysis Science Award until Dec 25, 2025, across diverse catalysis and ...

Nitrogen gas (N 2) is one of the most abundant yet highly stable gases in the Earth's atmosphere. Its N≡N triple bond has an ...

A new open-access tool created by University of Toronto Engineering researchers provides a systematic way to organize and ...

Natural gas—one of the planet's most abundant energy sources—is primarily composed of methane, ethane, and propane. While it ...