A collaborative research team from the Xinjiang Technical Institute of Physics and Chemistry of the Chinese Academy of Sciences, along with researchers from the Lawrence Livermore National Laboratory in the U.S. and the International Iberian Nanotechnology Laboratory in Portugal, has revealed at the atomic scale how factors such as size, defect density, and approach pathways influence crystal growth through coalescence.
Researchers from the Dalian Institute of Chemical Physics of the Chinese Academy of Sciences, Fudan University and Georgia Institute of Technology, uncovered the mechanisms underlying the anodic high-temperature oxygen evolution reaction in solid oxide electrolysis cells.
A team led by Prof. DOU Xincun at the Xinjiang Technical Institute of Physics and Chemistry of the Chinese Academy of Sciences synthesized a new covalent organic framework (COF)—a crystalline material made of a light element such as carbon, hydrogen, nitrogen, or oxygen, which can be customized at the molecular level. Using the new COF—dubbed tDACH—the researchers inserted cyclohexane-based linkers as conjugation "breakpoints," thereby engineering π-conjugated domains that enable intrinsic exciton confinement at the molecular scale.
A research team led by Prof. YAN Yong from the National Center for Nanoscience and Technology of the Chinese Academy of Sciences developed an artificial gustatory system which is capable of precisely distinguishing different flavors in aqueous environments.
A research team from the Xinjiang Institute of Physics and Chemistry of the Chinese Academy of Sciences has developed a rare-earth tantalate thermosensitive ceramic using a high-entropy strategy.
The world's first thousand-ton-scale ionic liquid-based regenerated cellulose fiber project has officially commenced operations in Henan Province, China. Developed by the Institute of Process Engineering of the Chinese Academy of Sciences, the project marks the first large-scale global production of regenerated cellulose fibers using ionic liquids.
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