物理化学学报2018,Vol.34Issue(10):1136-1143,8.DOI:10.3866/PKU.WHXB201801301
气体分子在二维石墨烯纳米孔中的选择性渗透特性
Selective Permeation of Gas Molecules through a Two-Dimensional Graphene Nanopore
摘要
Abstract
Selective molecular permeation through two-dimensional nanopores is of great importance for nanoporous graphene membranes.In this study,we investigate the selective permeation characteristics of gas molecules through a nitrogen-and hydrogen-modified graphene nanopore using molecular dynamics simulations.We reveal the mechanisms of selective molecular permeation from the aspects of molecular size and structure,pore configuration,and interactions between gas molecules and graphene.The results show that the permeances of different molecules are different,and the following order is observed in our study:H2O > H2S > CO2 > N2 > CH4.Molecular permeance is related to the molecular size,mass,and molecular density on the graphene surface.The molecular permeation rate is inversely proportional to the molecular mass based on gas kinetic theory,while the molecular density on the graphene surface exerts a positive effect on molecular permeation.The permeance of H2O molecules is the highest owing to their smallest diameter,while the permeance of CH4 molecules is the lowest owing to their biggest diameter;in these cases,the molecular size is a dominating factor.For H2S and CO2 molecules,the diameters of H2S molecules are larger than those of CO2 molecules,but the interactions between H2S molecules and graphene are stronger,resulting in a stronger permeation ability of H2S molecules.Between CO2 and N2 molecules,CO2 molecules show higher permeation rates owing to smaller diameters and stronger interactions with graphene.The graphene surface also shows nonuniform molecular density distribution owing to molecular permeation through graphene nanopores.Because of the doped nitrogen atoms,the CH4 molecules prefer to permeate from the left and right sides of the graphene nanopore,while the other molecules prefer to permeate from the center of the nanopore owing to their small diameters.For the molecules that show stronger interactions with graphene,the molecular density on the graphene surface is higher;accordingly,the residence time on the graphene surface is longer and the experience time period during permeation is also longer.The mechanisms identified in this study can provide theoretical guidelines for the application of graphene-based membranes.In addition,the permeance of gas molecules in the graphene nanopore adopted in this study is on the order of 10-3 mol·s-1·m-2·pa-1,and the selectivity of other molecules relative to CH4 molecules is also high,showing that the membranes based on this type of nanopore can be employed in natural gas processing and other separation industries.关键词
石墨烯纳米孔/选择性渗透/气体分子/分子动力学Key words
Graphene nanopore/Selective permeation/Gas molecules/Molecular dynamics分类
化学化工引用本文复制引用
孙成珍,白博峰..气体分子在二维石墨烯纳米孔中的选择性渗透特性[J].物理化学学报,2018,34(10):1136-1143,8.基金项目
The project was supported by the National Natural Science Foundation of China (51506166),China National Funds for Distinguished Young Scientists (51425603) and National Science Foundation for Post-doctoral Scientists of China (2016T90915).国家自然科学基金青年项目(51506166),国家杰出青年科学基金项目(51425603)和中国博士后科学基金特别资助项目(2016T90915). (51506166)
