CHINA FOREX:In 2024,what initiatives did the Science and Technology Department of the State Administration of Foreign Exchange(SAFE)undertake to advance the reform and development of foreign exchange administration,wh...CHINA FOREX:In 2024,what initiatives did the Science and Technology Department of the State Administration of Foreign Exchange(SAFE)undertake to advance the reform and development of foreign exchange administration,while simultaneously fulfilling a dual role of supporting and leading technological innovation?展开更多
Co-catalyst engineering has significantly bolstered the tunable photoinduced charge migration/separation in solar-driven photoelectrochemical(PEC)technology,but intricate synthesis procedures,unfavorable long-term sta...Co-catalyst engineering has significantly bolstered the tunable photoinduced charge migration/separation in solar-driven photoelectrochemical(PEC)technology,but intricate synthesis procedures,unfavorable long-term stability,high cost,and difficult interface configuration modulation retard the exploration of robust,stable,easily accessible,novel and highly efficient artificial photosystems.Herein,we conceptually unravel that a solid non-conjugated insulating polymer of poly(allylamine hydrochloride)(PAH)is able to function as an ideal interfacial co-catalyst to accelerate the charge separation of metal oxide(MO)substrates.展开更多
文摘CHINA FOREX:In 2024,what initiatives did the Science and Technology Department of the State Administration of Foreign Exchange(SAFE)undertake to advance the reform and development of foreign exchange administration,while simultaneously fulfilling a dual role of supporting and leading technological innovation?
基金supported by the National Natural Science Foundation of China(No.21703038,22072025)The financial support from the State Key Laboratory of Structural Chemistry,Fujian Institute of Research on the Structure of Matter,Chinese Academy of Science is acknowledged(No.20240018).
文摘Co-catalyst engineering has significantly bolstered the tunable photoinduced charge migration/separation in solar-driven photoelectrochemical(PEC)technology,but intricate synthesis procedures,unfavorable long-term stability,high cost,and difficult interface configuration modulation retard the exploration of robust,stable,easily accessible,novel and highly efficient artificial photosystems.Herein,we conceptually unravel that a solid non-conjugated insulating polymer of poly(allylamine hydrochloride)(PAH)is able to function as an ideal interfacial co-catalyst to accelerate the charge separation of metal oxide(MO)substrates.
