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具有广谱响应的双Z型InS/BiS/ZnS异质结作为用于超灵敏检测环境污染物四环素的光活性材料

Dual Z-scheme InS/BiS/ZnS heterojunction with broad-spectrum response as a photoactive material for ultrasensitive detection of environmental Pollutant tetracycline.

作者信息

Chen Li, Jin Yu-Shuang, Qin Jun-Ying, Zhou Ying, Yuan Ruo

机构信息

Key Laboratory of Luminescence Analysis and Molecular Sensing (Southwest University), Ministry of Education, Chongqing Engineering Laboratory of Nanomaterials & Sensor Technologies, College of Chemistry and Chemical Engineering, Southwest University, Chongqing, 400715, PR China.

No. 208 Hydrogeological and Engineering Geological Team, Chongqing Bureau of Geological and Mineral Resource Exploration and Development, Chongqing, 400700, PR China.

出版信息

Biosens Bioelectron. 2025 Nov 1;287:117654. doi: 10.1016/j.bios.2025.117654. Epub 2025 Jun 6.

DOI:10.1016/j.bios.2025.117654
PMID:40516428
Abstract

Herein, a novel dual Z-scheme heterojunction InS/BiS/ZnS (IBZS) with core-shell structure was prepared to establish a photoelectrochemical (PEC) biosensor for ultrasensitive detection of tetracycline (TC) referred to environmental pollution. Compared with the traditional single Z-scheme heterojunction with low PEC response, the dual Z-scheme heterojunction exhibited a strong PEC response due to its broad-spectrum response and highly efficient carrier migration. Furthermore, a redesigned target-triggered entropy-driven DNA reaction (TEDR) was implemented to mitigate spontaneous transient strand dissociation (breathing effect) in DNA duplexes, thereby effectively suppressing nonspecific background noise and enhancing the detection sensitivity of the biosensor. Hence, the PEC biosensor achieved an ultrasensitive detection of TC from 1.0 fM to 10 nM with a detection limit of 0.54 fM, which was far beyond the current TC detection methods. This strategy provided a new avenue for designing high-performance PEC photoactive materials, which was expected to be used to analyze antibiotics in environmental pollution monitoring and food quality control.

摘要

在此,制备了一种具有核壳结构的新型双Z型异质结InS/BiS/ZnS(IBZS),以建立一种用于超灵敏检测四环素(TC)的光电化学(PEC)生物传感器,该检测涉及环境污染。与具有低PEC响应的传统单Z型异质结相比,双Z型异质结由于其宽光谱响应和高效的载流子迁移而表现出强烈的PEC响应。此外,实施了一种重新设计的靶标触发熵驱动DNA反应(TEDR),以减轻DNA双链中的自发瞬时链解离(呼吸效应),从而有效抑制非特异性背景噪声并提高生物传感器的检测灵敏度。因此,该PEC生物传感器实现了对TC从1.0 fM到10 nM的超灵敏检测,检测限为0.54 fM,这远远超过了目前的TC检测方法。该策略为设计高性能PEC光活性材料提供了一条新途径,有望用于环境污染监测和食品质量控制中的抗生素分析。

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