A research team from the Qingdao Institute of Bioenergy and Bioprocess Technology of the Chinese Academy of Sciences has developed a confined crystallization strategy. This approach reconstructs—i.e., redesigns—the crystallization pathway during spray coating at its source through solvation structure regulation. Specifically, the team established a localized high-concentration (LHC) precursor system within individual spray droplets, enabling precise control over nucleation behavior during film formation.
A research team from the Xinjiang Technical Institute of Physics and Chemistryof the Chinese Academy of Scienceshas madeprogress in the field of ultra-thin temperature sensors. The team adopted a "water-soluble sacrificial layer-assisted transfer" strategy, which resolves the process compatibility issue between high-performance sensitive materials and flexible substrates.
A team led by Prof. ZHOU Yongjin from the Dalian Institute of Chemical Physics, along with Prof. FEI Qiang from Xi'an Jiaotong University, developed a yeast cell factory to produce L-lactate from methanol as the sole carbon source, and evaluated the commercial potential and environmental impacts of this bioprocess.
A team led by Prof. CHEN Zhongwei and Assoc. Prof. MAO Zhiyu from the Dalian Institute of Chemical Physics of the Chinese Academy of Sciences, and Assoc. Prof. ZHANG Zhaosheng from the Beijing Institute of Technology, developed a comprehensive real-world data–driven framework for EVs range prediction and intelligent management.
A research team from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences has revealed that a one-time nitrogen application, a labor-saving practice favored by many farmers, increases both soil and canopy ammonia emissions in maize fields, while reducing grain yield and nitrogen use efficiency.
Prof. HAN Buxing and LIN Longfei’s group from the Institute of Chemistry of the Chinese Academy of Sciences, and collaborators from Beijing Normal University and Peking University, developed a kinetic decoupling-recoupling (KDRC) strategy that enables the conversion of polyethylene (PE) to ethylene and propylene with a yield of 79%.
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