Rare-earth metals are indispensable for many technical products, from smartphones, laptops, batteries, electromotors, and wind turbines, to catalysts. In the journal Angewandte Chemie, a Japanese team has now introduced a ...
Materials Science
Aug 22, 2022
0
12
A novel hybrid ferritin nanocage with histidine residues shows 1.5 times higher metal ion uptake and improved catalytic efficiency for alcohol production, according to researchers from Tokyo Tech in a new study. Their findings ...
Bio & Medicine
Jan 24, 2022
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172
Shape-shifter molecules are in never-ending motion. Their structure fluctuates because the carbon bonds that hold them together constantly break up and form again. Researchers have now found a way to "tame" a shape-shifter ...
Materials Science
Jan 18, 2022
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85
Is it in a liquid phase or a 'glassy' phase? This question has been the subject of intense debate as physicists try to understand the behavior of so-called 'active matter'—a relatively new type of matter where particles ...
Soft Matter
Jan 4, 2022
0
81
How can a highly effective drug be transported to the precise location in the body where it is needed? In the journal Angewandte Chemie, chemists at Heinrich Heine University Düsseldorf (HHU) together with colleagues in ...
Polymers
May 5, 2021
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55
Molecular cages created by Imperial researchers could lead to more targeted cancer drug delivery, causing greater efficiency and fewer side effects.
Bio & Medicine
Apr 7, 2021
0
162
Researchers from Bochum and Berkeley have investigated why cages can increase the catalytic activity of enclosed molecules. Using terahertz spectroscopy and complex computer simulations, they showed that water encapsulated ...
Biochemistry
Dec 15, 2020
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22
A reverse form of host-guest chemistry could upend the way the chemical industry approaches challenging, energy-intensive molecular separations.
Materials Science
Nov 30, 2020
1
13
Mice that grow up in stimulating environments not only become smarter and more curious but are also more likely to develop individualized "personalities," a new study showed Wednesday.
Plants & Animals
Aug 27, 2020
0
165
University at Buffalo chemists have shown that self-assembling molecular traps can be used to capture PFAS—dangerous pollutants that have contaminated drinking water supplies around the world.
Materials Science
May 27, 2020
0
195
