煅烧
氟
电子顺磁共振
兴奋剂
离子
二氧化钛
材料科学
电子
无机化学
顺磁性
水溶液
钛
化学
物理化学
核磁共振
凝聚态物理
催化作用
有机化学
复合材料
光电子学
冶金
物理
量子力学
作者
A. M. Czoska,Stefano Livraghi,Mario Chiesa,Elio Giamello,Stefano Agnoli,Gaetano Granozzi,Emanuele Finazzi,C Di Valentin,Gianfranco Pacchioni
摘要
Fluorine-doped titanium dioxide was prepared via sol−gel synthesis and subsequent calcination in air. The presence of fluorine in the lattice induces the formation of reduced Ti3+ centers that localize the extra electron needed for charge compensation and are observed by electron paramagnetic resonance. Density functional theory calculations using hybrid functionals are in full agreement with such description. The extra electron is highly localized in a 3d orbital of titanium and lies a few tenths of an electron volt below the bottom of the conduction band. The preparation via sol−gel synthesis using aqueous solutions of fluorides also causes the formation of surface F− ions that substitute surface hydroxyl groups (OH−) without generating reduced centers.
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