Enhanced photoelectrochemical and sensing performance of TiO2/NiOOH/Ag to glucose

Diabetes is mainly caused by abnormal increase of blood glucose level, the corresponding glucose sensor can be used to monitor the concentration of glucose. TiO 2 /NiOOH composite sensor was prepared by a facile method of electrodeposition of NiOOH on TiO 2 nanotube arrays (TNT), and triangle Ag she...

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Bibliographic Details
Published in:Applied physics. A, Materials science & processing Materials science & processing, 2023-02, Vol.129 (2), Article 92
Main Authors: Yu, Lianqing, Ji, Xiaomeng, Zhao, Xingyu, Zhang, Yaping, Zhu, Haifeng
Format: Article
Language:English
Subjects:
Applied physics
Characterization and Evaluation of Materials
Condensed Matter Physics
Electromagnetic absorption
Glucose
Machines
Manufacturing
Materials science
Nanotechnology
Optical and Electronic Materials
Photoelectric effect
Photoelectricity
Physics
Physics and Astronomy
Processes
Silver
Surfaces and Interfaces
Synergistic effect
Thin Films
Titanium dioxide
Workstations
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Summary:Diabetes is mainly caused by abnormal increase of blood glucose level, the corresponding glucose sensor can be used to monitor the concentration of glucose. TiO 2 /NiOOH composite sensor was prepared by a facile method of electrodeposition of NiOOH on TiO 2 nanotube arrays (TNT), and triangle Ag sheets modified by photodeposition. The structures and photoelectric properties were characterized by electrochemical workstation. It was found that NiOOH could effectively improve the photoelectrochemical properties of TNT. When Ag was further photodeposited on TNT/NiOOH, the photocurrent density improved at 0.21 mA/cm 2 . The enhanced photoelectrochemical properties can be attributed to the extended visible light absorption and effective separation of photo-generated carriers by the synergistic effect of Ag and NiOOH. The modified TNT/NiOOH exhibited much stronger photoelectrochemical reduction property toward glucose in comparison to pure TNT. The sensitivity of TNT/NiOOH/Ag to glucose can reach 2490 μA·cm −2 ·mM −1 and its detection limit low to 0.44 μM.
ISSN:0947-8396
1432-0630
DOI:10.1007/s00339-022-06363-6