Attaching amino acids to a hydrophobic organic molecule allows them to self-assemble into rare, knotted structures with ...
Scientists at the Institute of Science Tokyo (Science Tokyo) have successfully realized the highly selective asymmetric 1,6 ...
One of the biggest problems facing modern microelectronics is that computer chips can no longer be made arbitrarily smaller ...
The field of nanomaterials is witnessing a transformative shift at the intersection of organic chemistry and molecular engineering. Among the most ...
Chiral phonons are vibrations where atoms move in a circular pattern when energized, for example, by heat. As these vibrations travel through a material, they carry and spread tha ...
Let’s say it’s 2036, and scientists are working on a new class of drugs. Today, for instance, pharmaceutical companies use bacteria to manufacture synthetic insulin for diabetics. Curious about ...
Researchers find that magnetic skyrmions can behave like chiral fluids, which may be harnessed for fluidic logic in nanofabricated devices. (Nanowerk News) In magnetic materials with antisymmetric ...
Thank you for your excellent work. When I attempted to run your code, I noticed an issue with the SMILES string provided in the example configuration file: O=C2C3=Nc1cc(c(cc1N(C3=NC(=O)N2)CC(O)C(O)C(O ...
Structural chirality refers to the geometric property of objects that are not superimposable on their mirror images, a concept that is central to organic chemistry. In contrast, topological chirality ...
For the first time, scientists at ETH Zurich have utilized extremely brief, rotating bursts of light to analyze and modify electron movements in mirror-image molecules. They demonstrated that the ...
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