CdSe/TiO2NTs Heterojunction-Based Nonenzymatic Photoelectrochemical Sensor for Glucose Detection

Compared with a single semiconductor, the heterojunction formed by two different semiconductors usually has higher light utilization and better photoelectric performance. By using stable TiO2 nanotubes as the main subject, CdSe/TiO2NTs heterojunctions were synthesized by a hydrothermal method. XRD,...

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Veröffentlicht in:	Langmuir 2023-10, Vol.39 (42), p.14935-14944
Hauptverfasser:	Li, Yue-Liu, Tian, Jing, Shi, Dong-Jie, Dong, Jian-Xun, Yue, Zhao, Li, Geng, Huang, Wei-Ping, Zhang, Shou-Min, Zhu, Bao-Lin
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container_issue	42
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container_title	Langmuir
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creator	Li, Yue-Liu Tian, Jing Shi, Dong-Jie Dong, Jian-Xun Yue, Zhao Li, Geng Huang, Wei-Ping Zhang, Shou-Min Zhu, Bao-Lin
description	Compared with a single semiconductor, the heterojunction formed by two different semiconductors usually has higher light utilization and better photoelectric performance. By using stable TiO2 nanotubes as the main subject, CdSe/TiO2NTs heterojunctions were synthesized by a hydrothermal method. XRD, TEM, SEM, PL, UV–vis, and EIS were used to characterize the fabricated CdSe/TiO2NTs. Under visible light irradiation, CdSe/TiO2NTs heterojunctions exhibited a higher absorption intensity and lower degree of photogenerated carrier recombination than TiO2. The electrons and holes were proven to be effectively separated in this heterojunction via theoretical calculation. Under CdSe/TiO2NTs’ optimal conditions, the glucose concentrations (10–90 μM) had a linear relationship with the photocurrent value, and the detection limit was 3.1 μM. Moreover, the CdSe/TiO2NTs sensor exhibited good selectivity and stability. Based on the experimental data and theoretical calculations, its PEC sensing mechanism was also illuminated.
doi_str_mv	10.1021/acs.langmuir.3c01685
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title	CdSe/TiO2NTs Heterojunction-Based Nonenzymatic Photoelectrochemical Sensor for Glucose Detection
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