C6H7N和C7H9N在pd掺杂TiO2锐钛矿上吸附性能的第一性原理计算(10 - 1)

Yingang Gui, Qianqian Wan, Ling-feng Luo
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引用次数: 0

摘要

在这项工作中,我们提出了一种新的pd掺杂TiO2锐钛矿(1 0 1)材料作为气敏材料来检测典型的肺癌挥发性有机物:苯胺(C6H7N)和邻甲苯胺(C7H9N)。通过对吸附结构、电荷转移、态密度和能带结构的分析,发现Pd-TiO2对C6H7N和C7H9N具有良好的气敏性能。单掺杂的Pd原子作为活性位点与气体分子相互作用,导致吸附体系的电子重分布和电导率的改变。根据不同气体分子吸附后电导率的不同变化特征,Pd-TiO2材料不仅可以实现高气敏,而且可以实现对C6H7N和C7H9N的选择性。计算结果对实验中制备高性能Pd-TiO2材料气体传感器具有指导作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
First-Principles Calculations of the Adsorption Property of C6H7N and C7H9N on Pd-doped TiO2 Anatase (1 0 1)
In this work, we proposed a novel Pd-doped TiO2 anatase (1 0 1), material as the gas sensing material to detect typical lung cancer volatile organic compounds: aniline (C6H7N) and o-toluidine (C7H9N). After analyse the adsorption structure, charge transfer, the density of states and band structure, it is found that Pd-TiO2 presents good gas sensing properties to C6H7N and C7H9N. The single doped Pd atom acts as the active site to interact with the gas molecules, which causes the electron redistribution and the change of conductivity of adsorption system. According to the different change characteristics of conductivity upon different gas molecules adsorption, Pd-TiO2 material can not only realize high gas sensitivity, but also realizes selectivity to C6H7N and C7H9N. The calculation results play a guiding role to prepare high-performance Pd-TiO2 material gas sensor in experiment.
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