The similarities in molecular size and physical properties of acetylene(C_(2)H_(2))and carbon dioxide(CO_(2))produce a formidable challenge for their separation.Herein,we report two isoreticular fluorinated metal–org...The similarities in molecular size and physical properties of acetylene(C_(2)H_(2))and carbon dioxide(CO_(2))produce a formidable challenge for their separation.Herein,we report two isoreticular fluorinated metal–organic frameworks(MOFs),labeled as JXNU-11(Fe2M)(M=Ni and Co),featuring unique octahedral cages encapsulated by cuboctahedral cages.JXNU-11(Fe_(2)Ni)shows a record high C_(2)H_(2)-capture amount of 4.8mmol g−1 and a long C_(2)H_(2)/CO_(2)breakthrough interval time of 55 min g^(−1)in an actual breakthrough experiment based on the equimolar C_(2)H_(2)/CO_(2)mixture under ambient conditions,indicating a high-performance material for C_(2)H_(2)capture andC_(2)H_(2)/CO_(2)separation.展开更多
基金supported by the National Natural Science Foundation of China(nos.22061022 and 21861020)the Foundation for Academic and Technical Leaders of Major Disciplines of Jiangxi Province(no.20204BCJL22043).
文摘The similarities in molecular size and physical properties of acetylene(C_(2)H_(2))and carbon dioxide(CO_(2))produce a formidable challenge for their separation.Herein,we report two isoreticular fluorinated metal–organic frameworks(MOFs),labeled as JXNU-11(Fe2M)(M=Ni and Co),featuring unique octahedral cages encapsulated by cuboctahedral cages.JXNU-11(Fe_(2)Ni)shows a record high C_(2)H_(2)-capture amount of 4.8mmol g−1 and a long C_(2)H_(2)/CO_(2)breakthrough interval time of 55 min g^(−1)in an actual breakthrough experiment based on the equimolar C_(2)H_(2)/CO_(2)mixture under ambient conditions,indicating a high-performance material for C_(2)H_(2)capture andC_(2)H_(2)/CO_(2)separation.
