二维片层材料用于构筑气体分离膜的研究进展
|
摘要
二维片层材料因其独特的片层结构、高比表面积和良好的机械性能等特性,在气体分离膜中得到了广泛关注。首先简单归纳了气体在无孔片层和多孔片层材料中的传递机理,之后重点讨论了用于气体分离的二维片层材料无机膜和高分子-无机杂化膜的研究现状。
Two-Dimensional nanosheet materials have attracted much attention in the field of gas separation membranes because of their unique lamellar structure,high specific area and good mechanical properties.The gas transport mechanisms in nonporous and porous nanosheets were summarized.The state-of-the-art inorganic and polymer-inorganic hybrid membranes based on two-dimensional nanosheets for gas separation were then discussed.
Two-Dimensional nanosheet materials have attracted much attention in the field of gas separation membranes because of their unique lamellar structure,high specific area and good mechanical properties.The gas transport mechanisms in nonporous and porous nanosheets were summarized.The state-of-the-art inorganic and polymer-inorganic hybrid membranes based on two-dimensional nanosheets for gas separation were then discussed.
引文
[1]Guiver M,Lee Y.Polymer rigidity improves microporous membranes[J].Science,2013,339(6117):284-285.
[2]朱宏伟,王敏.二维材料:结构、制备与性能[J].硅酸盐学报,2017,45(8):1043-1053.
[3]郭学彬,何一鸣,孙晓芳,等.MOFs/聚合物复合膜研究进展[J].化工新型材料,2017,45(8):19-20.
[4]Kim H,Yoo H,Yoon S,et al.Selective gas transport through few-layered graphene and graphene oxide membranes[J].Science,2013,342(6154):91-95.
[5]Li H,Song Z,Zhang X,et al.Ultrathin,molecular-sieving graphene oxide membranes for selective hydrogen separation[J].Science,2013,342(6154):96-98.
[6]Yampolskii Y,Freeman B.Membrane gas separation[M].United States:John Wiley and Sons Ltd,2010,85-107.
[7]Wang J,Wang S,Xin Q,et al.Perspectives on water-facilitated CO2capture materials[J].J Mater Chem A,2017,5:6794-6816.
[8]Wang S,Wu Y,Zhang N,et al.A highly permeable graphene oxide membrane with fast and selective transport nanochannels for efficient carbon capture[J].Energy Environ Sci,2016,9:3107-3112.
[9]Wang S,Xie Y,He G,et al.Graphene oxide membranes with heterogeneous nanodomains for efficient CO2separations[J].Angew Chem Int Ed,2017,56:14246-14251.
[10]Liu Q,Wang N,Caro J,et al.Bio-inspired polydopamine:a versatile and powerful platform for covalent synthesis of molecular sieve membranes[J].J Am Chem Soc,2013,135:17679-17682.
[11]Wang D,Wang Z,Wang L,et al.Ultrathin membranes of single-layered MoS2 nanosheets for high-permeance hydrogen separation[J].Nanoscale,2015,7:17649-17652.
[12]Shen J,Zhang M,Liu G,et al.Size effects of graphene oxide on mixed matrix membranes for CO2Separation[J].AIChE J,2016,62:2843-2852.
[13]Rodenas T,Luz I,Prieto G,et al.Metal-organic framework nanosheets in polymer composite materials for gas separation[J].Nature Mater,2015,14(1):48-55.
[14]Tian Z,Wang S,Wang Y,et al.Enhanced gas separation performance of mixed matrix membranes from graphitic carbon nitride nanosheets and polymers of intrinsic microporosity[J].J Membr Sci,2016,514:15-24.
[15]Galve A,Sieffert D,et al.Copolyimide mixed matrix membranes with oriented microporous titanosilicate JDF-L1sheet particles[J].J Membr Sci,2011,370:131-140.
[16]Qiao Z,Zhao S,Wang J,et al.A highly permeable aligned montmorillonite mixed-matrix membrane for CO2separation[J].Angew Chem Int Ed,2016,55:9321-9325.
[17]Buonomenna M,Yave W,Golemme G.Some approaches for high performance polymer based membranes for gas separation:block copolymers,carbon molecular sieves and mixed matrix membranes[J].RSC Adv,2012,2:10745-10773.
[18]Watanabe T,Keskin S,Nair S,et al.Computational identification of a metal organic framework for high selectivity membrane-based CO2/CH4separations:Cu(hfipbb)(H2hfipbb)0.5[J].Phys Chem Chem Phys,2009,11:11389-11394.
[2]朱宏伟,王敏.二维材料:结构、制备与性能[J].硅酸盐学报,2017,45(8):1043-1053.
[3]郭学彬,何一鸣,孙晓芳,等.MOFs/聚合物复合膜研究进展[J].化工新型材料,2017,45(8):19-20.
[4]Kim H,Yoo H,Yoon S,et al.Selective gas transport through few-layered graphene and graphene oxide membranes[J].Science,2013,342(6154):91-95.
[5]Li H,Song Z,Zhang X,et al.Ultrathin,molecular-sieving graphene oxide membranes for selective hydrogen separation[J].Science,2013,342(6154):96-98.
[6]Yampolskii Y,Freeman B.Membrane gas separation[M].United States:John Wiley and Sons Ltd,2010,85-107.
[7]Wang J,Wang S,Xin Q,et al.Perspectives on water-facilitated CO2capture materials[J].J Mater Chem A,2017,5:6794-6816.
[8]Wang S,Wu Y,Zhang N,et al.A highly permeable graphene oxide membrane with fast and selective transport nanochannels for efficient carbon capture[J].Energy Environ Sci,2016,9:3107-3112.
[9]Wang S,Xie Y,He G,et al.Graphene oxide membranes with heterogeneous nanodomains for efficient CO2separations[J].Angew Chem Int Ed,2017,56:14246-14251.
[10]Liu Q,Wang N,Caro J,et al.Bio-inspired polydopamine:a versatile and powerful platform for covalent synthesis of molecular sieve membranes[J].J Am Chem Soc,2013,135:17679-17682.
[11]Wang D,Wang Z,Wang L,et al.Ultrathin membranes of single-layered MoS2 nanosheets for high-permeance hydrogen separation[J].Nanoscale,2015,7:17649-17652.
[12]Shen J,Zhang M,Liu G,et al.Size effects of graphene oxide on mixed matrix membranes for CO2Separation[J].AIChE J,2016,62:2843-2852.
[13]Rodenas T,Luz I,Prieto G,et al.Metal-organic framework nanosheets in polymer composite materials for gas separation[J].Nature Mater,2015,14(1):48-55.
[14]Tian Z,Wang S,Wang Y,et al.Enhanced gas separation performance of mixed matrix membranes from graphitic carbon nitride nanosheets and polymers of intrinsic microporosity[J].J Membr Sci,2016,514:15-24.
[15]Galve A,Sieffert D,et al.Copolyimide mixed matrix membranes with oriented microporous titanosilicate JDF-L1sheet particles[J].J Membr Sci,2011,370:131-140.
[16]Qiao Z,Zhao S,Wang J,et al.A highly permeable aligned montmorillonite mixed-matrix membrane for CO2separation[J].Angew Chem Int Ed,2016,55:9321-9325.
[17]Buonomenna M,Yave W,Golemme G.Some approaches for high performance polymer based membranes for gas separation:block copolymers,carbon molecular sieves and mixed matrix membranes[J].RSC Adv,2012,2:10745-10773.
[18]Watanabe T,Keskin S,Nair S,et al.Computational identification of a metal organic framework for high selectivity membrane-based CO2/CH4separations:Cu(hfipbb)(H2hfipbb)0.5[J].Phys Chem Chem Phys,2009,11:11389-11394.