褐煤与水分子的吸附作用机理

Adsorption mechanism of lignite and water molecules

  • 摘要: 为探究褐煤吸附多层水分子的作用机理,运用Gaussian 09软件包建立了褐煤表面分子模型,应用密度泛函理论中的B3LYP方法,用ORCA程序计算得到9种不同的吸附构型及吸附能,应用波函数分析软件Multiwfn及VMD可视化程序,得到了吸附构型表面静电势分布及RDG等值面图,可视化地展示了弱相互作用的区域及类型,同时运用AIM理论分析电子密度的拓扑结构,分析原子间的成键类型及稳定性。结果表明:褐煤对水分子的吸附属物理吸附,以氢键为主,其余为范德华弱相互作用;褐煤分子的含氧官能团区域是发生吸附作用的活性位点,同时每个水分子的加入都为褐煤吸附下一层水分子提供了更多的活性位点;水分子二聚体、三聚体的形成与吸附极大地改变了褐煤的结构。

     

    Abstract: In order to explore the mechanism of multilayered water molecules adsorbed on lignite, Gaussian 09 software package was used to establish the surface model of lignite molecule.Based on the B3LYP method of density functional theory, nine different adsorption configurations and adsorption energies were calculated by using ORCA program.Using the wave function analysis software Multiwfn and VMD visualized program, the surface electrostatic potential distribution and RDG contours of the adsorbed configuration are obtained, visually reveal the regions and types of weak interaction.Meanwhile, the AIM theory was used to analyze the electronic density topological structure, and the bonding type and stability between atoms were quantitatively analyzed.Results show that the adsorption of water molecules on lignite belongs to physical adsorption.The adsorption is mainly hydrogen bond, and the rest is van der Waals weak interaction.The oxygen-containing functional groups region on lignite surface contains the active site where adsorption takes place.Meanwhile each water molecule provides more active sites for the adsorption of the next layer of water molecules by lignite.The formation and adsorption of dimer water molecules and trimer water molecules greatly alter the structure of lignite.

     

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