Researchers at The University of Manchester and Hebei University of Technology have identified how a new class of catalyst can break down lignin into useful chemical building blocks, offering a more ...
From building the Centre for Pulse EPR at Imperial to probing electron transfer in real time, Maxie Rößler is pushing an overlooked technique into the spotlight ...
Scientists at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory and their collaborators have demonstrated ...
Scientists have engineered 'SpudCell,' a lab-made system from chemicals that mimics life's core functions like growth and division. While not fully alive due to reliance on external components, this ...
Lignin is a key structural component of plants, the largest renewable source of aromatic chemicals in nature, and is present ...
Sodium-ion batteries are considered a promising technology for large-scale energy storage because sodium is abundant and widely distributed. A major ...
Carbon materials, such as carbon fibers and activated carbons, are essential across a wide variety of fields, encompassing everything from aerospace ...
Peer into a recycling bin and you'll almost certainly see a problem. Plastic trays, bottles, films all tangled together, ...
Baking soda, milk, vinegar, cinnamon: do DIY garden fungicides actually work? Here is what the evidence says about each one and how to use them correctly.
A new study reveals that dual-atom catalysts behave in a fundamentally different way than scientists previously thought, challenging a long-standing model used to predict catalytic performance.
NASA’s Perseverance rover has uncovered the most extensive evidence yet of complex organic molecules on Mars, detecting ...