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Geometric and Electronic Structure Modulation to Optimize the Charge Transfer of TiO 2 for Ultrasensitive and Stable SERS Sensing.

Wei LiuXuan HeZihan WangMan YuanZhiyang ZhaoXin YeSisi ShangZihao SongLongjin HuangYu LiuSheng Cui
Published in: Inorganic chemistry (2024)
Exploring the relationship between semiconductor structure and surface-enhanced Raman scattering (SERS) activity was essential for the development of ultrasensitive SERS substrates. Herein, we report an ytterbium atomic doping strategy to render TiO 2 (Yb-TiO 2 ) highly SERS sensitive superior to pure TiO 2 , with a detection limit as low as 1 × 10 -9 M for 4-mercaptobenzoic acid. First-principles density functional theory calculations reveal that ytterbium doping leads to high electrostatic properties, allowing for significant charge transfer from molecules to semiconductors. Theoretical and experimental results indicate that Yb-TiO 2 has a smaller band gap and higher density of states, which effectively enhance charge transfer between molecules and substrates, resulting in significant SERS activity. More importantly, Yb-TiO 2 was particularly stable in air and acid solution and can be used for trace molecule detection in extreme environments. We demonstrate a promising approach to construct ultrasensitive SERS by optimizing the electronic structure induced by geometric structures.
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