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Molecularly imprinted polymer coating-assisted CsPbBr3 perovskite quantum dots/TiO2 inverse opal heterojunctions for the photoelectrochemical detection of cholesterol

Photoelectrochemical sensors have outstanding advantages including high sensitivity and miniaturization for outdoor use. Recently, perovskite quantum dots have attracted significant attention due to their high photoluminescence quantum yield. Nonetheless, there is still a strong need to improve thei...

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Bibliographic Details
Published in:Analyst (London) 2023-07, Vol.148 (15), p.3666-3676
Main Authors: Wang, Xuan, Lin, Fankai, Zhou, Xiaoyu, Miao, Yunfei, Feng, Dongwei, Huang, Peng, Ren, Mingxing, Geng, Lina, Luo, Aiqin, Deng, Yulin
Format: Article
Language:English
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Summary:Photoelectrochemical sensors have outstanding advantages including high sensitivity and miniaturization for outdoor use. Recently, perovskite quantum dots have attracted significant attention due to their high photoluminescence quantum yield. Nonetheless, there is still a strong need to improve their performance in challenging aqueous biological applications. In this paper, based on the molecularly imprinted polymer encapsulation of CsPbBr3 perovskite quantum dot/TiO2 inverse opal heterojunction structures, linear photoelectrochemical detection of cholesterol in aqueous solution was obtained without the involvement of an enzyme. The attenuation of photocurrent intensity under intermittent irradiation within 900 s (45 on/off cycles) was only 8.6%, demonstrating the superior stability of CsPbBr3 based sensor here. At the same time, the minimum detection limit of 1.22 × 10−9 mol L−1 in buffer conditions was lower than that reported for cholesterol photoelectric sensors. It has also been shown that the photoelectrochemical sensor of CsPbBr3 here outperformed that of CH3NH3PbBr3, which is another important member of the perovskite family. Finally, the proposed photoelectrochemical sensor platform was successfully applied in the determination of cholesterol in challenging serum with satisfactory recovery. The synergism among CsPbBr3 perovskite quantum dots, TiO2 inverse opal structure and imprinted polymer has led to greatly improved water stability, super selectivity and sensitivity, thus promoting the development of perovskite-based biological sensors.
ISSN:0003-2654
1364-5528
DOI:10.1039/d3an00504f