A research team led by Prof. JIANG Hailong and Prof. JIAO Long from the University of Science and Technology of China of the Chinese Academy of Sciences developed a novel strategy to stabilize *COOH intermediate and enhance electrochemical CO2 reduction by constructing and modulating the hydrogen-bonding microenvironment around catalytic sites.
Chinese scientists have found a way to make flexible tandem solar cells more efficient and durable by enhancing the adhesion of top layers to the bottom layers of the cell.
A study by HE Zhuohao’s team from the Shanghai Institute of Organic Chemistry of the Chinese Academy of Sciences, along with collaborators, has revealed the critical role of the “fuzzy coat” of α-synuclein—the flexible, disordered regions that extend from the fibril core—in prion-like pathological transmission in synucleinopathies.
A research team led by Prof. LIU Gang from the Institute of Metal Research (IMR) has achieved a breakthrough in photocatalytic water splitting by developing a scandium-doped titanium dioxide semiconductor in the rutile crystal phase.
A team led by Profs. WANG Guoxiong, XIAO Jianping, and BAO Xinhe from the Dalian Institute of Chemical Physics of the Chinese Academy of Sciences developed a novel process for the direct production of syngas via super-dry reforming of methane, and offered a promising way for efficient and direct utilization of CO2-rich natural gas using high-temperature tandem electro-thermocatalysis based on solid oxide electrolysis cells.
A research group led by Prof. XU Gang and Prof. WANG Guan'e from Fujian Institute of Research on the Structure of Matter of the Chinese Academy of Sciences designed and synthesized a novel organic-inorganic hybrid covalent superlattice material, AgBDT (BDT = 1,4-benzenedithiol), and proposed a ratiometric sensing mechanism to combat temperature drift.
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