Li Jie, Fan Xiaozhen, Chen Junjie, Shi Guosheng, Liu Xing
Shanghai Applied Radiation Institute, State Key Lab. Advanced Special Steel, Shanghai University, Shanghai, 200444, China.
J Mol Model. 2024 Feb 17;30(3):72. doi: 10.1007/s00894-024-05872-w.
Graphene-based nanomaterial was widely used in gas sensors, detection, and separation. However, weak adsorption and low selectivity of the pristine graphene used for gas sensors are major problems. Here, using density functional theory (DFT) calculations, we reported the significant increase of four gas molecules (N, CO, CH, and CH) adsorption on the transition metal ion (Fe, Co, Ni)-modified graphene complex (Fe/Co/Ni-G) comparing to be absorbed on the pristine graphene (G). Moreover, the Co-G is suitable for the selective separation of CH/CH due to the larger adsorption energy difference (8.5 kcal/mol) between them. The addition of transition metal ions also decreased the HOMO-LUMO gap of the systems, which benefits the enhancement of electrical conductivity. This suggests that the transition metal ion-modified graphene can be used to distinguish the different gas molecule's adsorption, facilitating the design of graphene-based gas sensors and selective separation.
All the density functional theory (DFT) calculations were performed by B3LYP with the GD3 dispersion method using Gaussian 16 software. The basis set 6-31G(d) was used for C, H, O, and N atoms, and Lanl2DZ was used for transition metal ions (Fe, Co, Ni). The DOS analysis and energy decomposition analysis were performed using the Multiwfn program.
基于石墨烯的纳米材料被广泛应用于气体传感器、检测和分离领域。然而,用于气体传感器的原始石墨烯吸附能力弱和选择性低是主要问题。在此,通过密度泛函理论(DFT)计算,我们报道了与吸附在原始石墨烯(G)上相比,四种气体分子(N、CO、CH和CH)在过渡金属离子(Fe、Co、Ni)修饰的石墨烯复合物(Fe/Co/Ni-G)上的吸附显著增加。此外,由于Co-G对CH/CH具有较大的吸附能差(8.5千卡/摩尔),因此它适用于CH/CH的选择性分离。过渡金属离子的加入也降低了体系的HOMO-LUMO能隙,这有利于电导率的提高。这表明过渡金属离子修饰的石墨烯可用于区分不同气体分子的吸附,有助于基于石墨烯的气体传感器设计和选择性分离。
所有密度泛函理论(DFT)计算均使用高斯16软件,采用B3LYP和GD3色散方法进行。C、H、O和N原子使用基组6-31G(d),过渡金属离子(Fe、Co、Ni)使用Lanl2DZ。态密度分析和能量分解分析使用Multiwfn程序进行。
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