BTT-BPy-PCOF合成示意图 北京理工大学王博课题组采用专门设计的活性位点单体构筑了二维全共轭乙烯-COF (BTT-BPy -COF)。引入的联吡啶位点使得后质子化修饰策略能够对活性位点进行微调,从而极大地提高了电荷分离效率,并协同提高了孔通道中的亲水性。调节质子化程度后,优化的BTT-BPy-PC OF在可见光下的产氢速率为15.8...
北京理工大学王博课题组采用专门设计的活性位点单体构筑了二维全共轭乙烯-COF (BTT-BPy-COF)。引入的联吡啶位点使得后质子化修饰策略能够对活性位点进行微调,从而极大地提高了电荷分离效率,并协同提高了孔通道中的亲水性。调节质子化程度后,优化的BTT-BPy-PCOF在可见光下的产氢速率为15.8 mmol g-1 H-1,是联苯基...
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