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石墨烯复合对锐钛矿型二氧化钛(001)和(101)面电子结构和表面性质的影响

作者:时间:2016-11-26点击数:

PDF全文下载:2016060637

窦锦彪,李东阳,高洪涛*

(青岛科技大学 无机合成与应用化学重点实验室,山东 青岛266042)

摘要: 采用第一性原理计算方法讨论了TiO2(101)、(001)、(010)、(110)和(100)等活性表面的稳定顺序,选取最稳定表面(101)和最活泼表面(001)为研究对象,探讨石墨烯的复合对TiO2表面结构和性能的影响。结果表明:石墨烯的复合改变了TiO2的电子结构和电荷分布,导致电子由TiO2表面迁移到石墨烯。石墨烯/TiO2导带底端主要由Ti 3d组成,其分布向低能级部分移动,带隙大大减小,电子跃迁变得容易,吸收边波长发生红移,拓展了光催化剂的光响应范围,提高了其光催化活性。

关键词: 锐钛矿二氧化钛;石墨烯;复合;电子结构;表面性质

中图分类号:O 613.71文献标志码:A

Effect of Graphene Hybridization on the Electronic Structure and Surface Properties of Anatase TiO2 with (001) and (101) Facet

DOU Jinbiao, LI Dongyang, GAO Hongtao

(Laboratory of Inorganic Synthesis and Applied Chemistry, Qingdao University of Science and Technology, Qingdao 266042, China)

Abstract: In our work, it was determined that the (101) facet was the most stable surface and (001) facet was the most active surface among all facets of anatase TiO2. First-principles calculations based on density functional theory (DFT) were used to explore the effect of graphene hybridization on the electronic structure and properties of anatase TiO2with typical facet, such as (101) and (001). Due to the hybridization of graphene, the charge distributions of atoms between the interface of TiO2 and graphene were modified, which cause the electron migrate from the surface of TiO2 to graphene. The bottom of conduction band was mainly composed of Ti 3d, which migrated to the low energy region. Both the energy gap of graphene/TiO2(001) and energy gap of graphene/TiO2(101) were narrowed, which indicated the electron transit from valence band to conduction band when under low-energy light irradiation. It indicated that the photocatalytic activities of the nanocomposites were enhanced and the optical response ranges were expanded to the long wavelength region.

Key words: anatase TiO2; graphene; hybridization; electronic structure; surface properties

收稿日期:2015-07-11

基金项目:国家自然科学基金项目(41573103,41340037);山东省科技发展计划项目(2014GGH217001).

作者简介:窦锦彪(1988—),男,硕士研究生.*通信联系人.

文章编号:16726987(2016)06063705;DOI:10.16351/j.16726987.2016.06.009

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