Bulky size frustrates radical molecules to boost chemical reactions, shows study
How to harness the potential of highly reactive radical molecules to work in pairs and spur transformative chemistry?
How to harness the potential of highly reactive radical molecules to work in pairs and spur transformative chemistry?
A new approach to developing semiconductor materials at tiny scales could help boost applications that rely on converting light to energy. A Los Alamos-led research team incorporated magnetic dopants into specially engineered ...
The arrangement of electrons in matter, known as the electronic structure, plays a crucial role in fundamental but also applied research, such as drug design and energy storage. However, the lack of a simulation technique ...
Winter cover crops could cut nitrogen pollution in Illinois' agricultural drainage water up to 30%, according to recent research from the University of Illinois Urbana-Champaign. But how will future climate change affect ...
Since Saturday, Australians have been required to wait until the age of 67 until they can get the age pension.
Global warming has been attributed to the sharp increase in heat-trapping greenhouse gas emissions, in particular CO2 emissions. Carbon capture technology, such as using adsorbents to capture and store CO2 from ambient air, ...
When photosynthetic cells absorb light from the sun, packets of energy called photons leap between a series of light-harvesting proteins until they reach the photosynthetic reaction center. There, cells convert the energy ...
Around the world, nations are looking at the prospect of shrinking, aging populations—but none more so than South Korea.
Seaweeds cultivated in the sea off the coast of Trøndelag, Norway, will be converted into biocoal and used to improve agricultural land. A new method for carbon capture and storage is now being trialed by Norwegian researchers.
Bitumen, the sticky product from Alberta's oil sands, is normally burned as fuel or gets a second life as asphalt pavement.