The production of adipic acid, a key industrial chemical utilised primarily in the manufacture of nylon-6,6, has long attracted scientific and industrial interest. Traditionally, adipic acid has been ...

Researchers have developed a hybrid surrogate model for iso-octanol oxidation to iso-octanal that integrates data-driven ...

A reaction that puzzled scientists for 50 years has now been explained by researchers at Ume University. Rapid structural snapshots captured how graphite transforms into graphite oxide during ...

In the quest for more efficient and sustainable heterogeneous catalysis, the integration of bimetallic nanoparticles has emerged as a promising strategy. Heterogeneous catalysis is a crucial process ...

The mechanics of the onset of cancer or neurodegenerative disorders like Alzheimer's disease or ALS remain a mystery.

Boosting Biochar's Versatility Biochar, a carbon-rich material derived from biomass, holds immense promise as a sustainable ...

Solar-power photocatalysis—turning sunlight into energy—holds promise for sustainable and cost-efficient energy and chemical ...

Researchers directly observed tetroxides for the first time, showing they exist in normal air conditions and play key roles in atmospheric chemistry, combustion, and medicine.

This module covers aldehydes and ketones as the substrates and products of redox reactions. Structure is explained with both Lewis structures and molecular orbitals to discuss mechanisms in the ...

Understand the challenges of liquid injectables and discover strategies to prevent stability issues and regulatory delays.

In 2022 a team discovered that high levels of OH radicals can be generated indoors, simply due to the presence of people and ozone. This means: People generate their own oxidation field and change the ...