Conceptual illustration of terrestrial hot springs on early Earth (Illustration by Alex Bosoy, Design & Illustration, LLC) ...

Copper is a promising catalyst for sustainably converting carbon dioxide into substances with more electrons (called reduced ...

Researchers have used visible light and gold-copper electrodes to improve CO2 conversion efficiency and selectivity, paving ...

A new study reveals iron sulfides in early Earth's hot springs catalyzed CO₂ reduction into organic molecules, potentially ...

The last leg of the emissions-scrubbing process is handled by the selective catalytic reduction (SCR) unit that works with a urea-based diesel exhaust fluid (DEF) to convert NOx into nitrogen, carbon ...

An international team of scientists recently published a study highlighting the potential role of iron sulfides in the ...

In a report published in November by ‘Climate Action Tracker’, and titled ‘1.5-aligned 2035 targets for major emitters and Troika countries’ the main carbon emitters currently have been identi ...

A new study by the Chinese Academy of Sciences investigates the catalytic properties of iron sulfide (FeS), both in its pure ...

The U.S. Environmental Protection Agency has proposed tougher nitrogen oxide (NOx) emissions limits for new, modified, and ...

In a recent paper, scientists unveiled a novel method to control quantum interactions between light and matter, where light ...

The team employed catalyst separation through host-guest chemistry—where a “guest” molecule is encapsulated in a “host” material to form a new chemical compound— in order to convert carbon dioxide to ...