Chain Structures of Surface Hydroxyl Groups Formed via Line Oxygen Vacancies on TiO_2(110) Surfaces Studied Using Noncontact Atomic Force Microscopy

摘要

Structures of surface hydroxyl groups arranged on a reduced TiO_2(110) surface that had line oxygen vacancies were studied using noncontact atomic force microscopy (NC-AFM).NC-AFM results revealed that by increasing the density of oxygen vacancies on the TiO_2(110) surface,line oxygen vacancies were formed by removal of oxygen atoms in a bridge oxygen row on the TiO_2(110) surface.After the TiO_2(110) surface with the line oxygen vacancies was exposed to water,the surface showed hydroxyl chain structures that were composed of hydroxyl groups linearly arranged in a form of two rows on the line oxygen vacancies and on a neighboring bridge oxygen row.In-situ NC-AFM measurements of these surfaces exposed to water at room temperature revealed that hydroxyl chain structures were formed at the line oxygen vacancy.Annealing above 500 K was sufficient to remove the hydroxyl chain structures on the TiO_2(110) surface and allowed line oxygen vacancies to reappear on the surface.The line oxygen vacancies are active sites for water dissociation.In conclusion,the formation of the hydroxyl chain structure suggests that the surface hydroxyl groups on a TiO_2(110) surface can be controlled by preparing oxygen vacancy structures on the surface.