Recently, the group of professor ZHANG Yongsheng from the Institute of Solid State Physics, Hefei Institutes of Physical Science (HFIPS), Chinese Academy of Sciences (CAS) identified the orbital characteristic of conduction band edges in their new research, which provided novel insights into further thermoelectric enhancement of half-Heusler materials through.
Researchers have developed an innovative catalyst for the synthesis of propylene, which has potential benefits for the chemical industry and carbon recycling.
Fossil fuels such as coal, oil, and natural gas cannot last forever. Therefore, gradually decreasing our dependency on fossil fuels seems critical.
Scientists from China have illustrated new reconstructable uterus-derived materials (RUMs) enabling nearly full recovery from severe uterine injury.
A novel hybrid ferritin nanocage with histidine residues shows 1.5 times higher metal ion uptake and improved catalytic efficiency for alcohol production, find researchers from Tokyo Tech in a new study. Their findings suggest that hybrid bio-nanocages could effectively catalyze reactions to yield industrially important products.
On a theoretical basis, iron that rusts in water should not be subjected to corrosion when it comes in contact with an “inert” supercritical fluid of carbon dioxide. However, it does not end up in the same way.
A team of researchers recently published a paper in the journal Materials that reviewed ecological methods to synthesize nicotinic acid from commercial raw materials with a special focus on methods that could be used in potential industrial applications.
In the quest for new materials with excellent properties for specific applications, scientists have developed various synthesis strategies over the years, which have given them increasingly precise control over the process and, consequently, over its outcome.
Lithium-ion batteries are relatively safe, long-lasting, fast charging and better for the environment than non-rechargeable batteries–right- Not quite. The rocking-chair mechanism that allows for commercial power storage generally uses rare earth elements, such as nickel and cobalt.
A salt used to create a green rocket fuel is known to decompose metals-;such as those in metal propellant storage tanks. Recent research at the University of Illinois Urbana-Champaign found that there are also trace metals in the fuel itself and investigated a way to slow the decomposition using compounds that bind to metals.
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