Insight into Capture of Greenhouse Gas （CO2） based on Guanidinium Ionic Liquids

胍盐离子液体捕获CO2温室气体的机理

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摘要 Quantum mechanics and molecular dynamics are used to simulate guanidinium ionic liquids. Results show that the stronger interaction exists between guanidine cation and chlorine anion with interaction energy about 109.216 kcal/mol. There are two types of spatial distribution for the title system： middle and top. Middle mode is a more stable conformation according to energy and geometric distribution. It is also verified by radial distribution function. The continuous increase of carbon dioxide （CO2） does not affect the structure of ionic liquids, but CO2 molecules are always captured by the cavity of ionic liquids.

作者刘和秀满瑞林郑柏树汪朝旭易平贵

机构地区中南大学化学化工学院湖南科技大学化学化工学院理论化学与分子模拟省部共建教育部重点实验室

出处《Chinese Journal of Chemical Physics》 SCIE CAS CSCD 2014年第2期144-148,I0003,共6页 化学物理学报（英文）

基金 ACKNOWLEDGMENTS This work was supported by the Open Project Program of Key Laboratory of Theoretical Chemistry and Molecular Simulation of Ministry of Education, Hunan University of Science and Technology, China （No.E21104）, the National Natural Science Foundation of China （No.21201062 and No.21172066）, and the International Cooperation Project （No.2013DFG60060）.

关键词 Ionic liquids Quantum chemical calculation Molecular dynamics simulation Interaction energy Radial distribution 离子液体量子化学计算分子力学模拟相互作用能径向分布

分类号 R-33 [医药卫生]

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Chinese Journal of Chemical Physics

2014年第2期

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Insight into Capture of Greenhouse Gas （CO2） based on Guanidinium Ionic Liquids

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