Enzymatic biofuel cells can act as self-powered wearable biosensors by converting chemicals in body fluids into electricity; ...

Living cells are sustained by countless chemical reactions that must be carefully regulated to maintain internal order and ...

From the 1950s to 1970s, discovery of enzymes began by identifying new chemical reactions within cell-free extracts, but ...

Researchers overcome key challenges in the mass production of enzymatic biofuel cells, paving the way for self-powered ...

Substrate Artificial Inteligence, S.A., together with its subsidiaries, engages in the creation and development of artificial intelligence systems in Spain, the United Kingdom, the United States, and ...

A team at the University of California, San Francisco has identified a specific liver-produced enzyme that explains, at the molecular level, how physical exercise protects the aging brain from ...

Researchers are piecing together the unusual chemical reactions that enable dinoflagellates to create spectacular light displays in tropical bays. But the mechanism behind their bioluminescence remain ...

Printable sweat-powered biofuel cells could replace bulky batteries in thin, flexible wearable health sensors.

Medicinal plants produce a wide range of bioactive compounds, yet the genetic and evolutionary mechanisms underlying their ...

With the widespread use of pesticides in modern agriculture, issues such as food contamination, ecological damage, and public ...