A lab-scale parallel photoreactor model has been developed for broad applications in organic chemistry.Position,angle,and distance in the reactor are systematically optimized for achieving high reproducibility under t...A lab-scale parallel photoreactor model has been developed for broad applications in organic chemistry.Position,angle,and distance in the reactor are systematically optimized for achieving high reproducibility under the guidance of the Inverse Square Law and Lambert’s Cosine Law,which were first applied in the design of the photoreactor.Improvement of photon efficiency is realized via 3-point irradiation and broad-band light reflector of aluminum.Photon flux is measured with an optical power meter with its display and adjustment suggested being integrated into the photoreactor for the first time.展开更多
基金support provided by NSFC(Nos.22125103 and 21971065)STCSM(Nos.22JC1401000,20JC1416800 and 20XD1421500)the Fundamental Research Funds for the Central Universities.
文摘A lab-scale parallel photoreactor model has been developed for broad applications in organic chemistry.Position,angle,and distance in the reactor are systematically optimized for achieving high reproducibility under the guidance of the Inverse Square Law and Lambert’s Cosine Law,which were first applied in the design of the photoreactor.Improvement of photon efficiency is realized via 3-point irradiation and broad-band light reflector of aluminum.Photon flux is measured with an optical power meter with its display and adjustment suggested being integrated into the photoreactor for the first time.
