<p>A complementary dual-mode biosensor was constructed for determination of chlorpyrifos (CP)&#xa0;using a multifunctional composite consisting of MnO<sub>2</sub>@thionine/ZIF-8 (MnO<sub>2</sub>@Thi/ZIF-8). This composite synergistically combines the good oxidase-mimetic activity of MnO<sub>2</sub> dispersed on the surface of ZIF-8 with the stable electroactivity of thionine (Thi) encapsulated within detachable ZIF-8 framework, enabling dual-mode detection of CP. In the presence of acetylcholinesterase (AChE) and its substrate acetylthiocholine (ATCh), enzymatic hydrolysis quantitatively produces acetic acid (HAc) and thiocholine (TCh). TCh acts as a reducing agent to convert MnO<sub>2</sub> to Mn<sup>2+</sup>, leading to diminished oxidase-mimetic activity of MnO₂ and a subsequent decrease in the oxidation of 3,3’,5,5’-tetramethylbenzidine (TMB) to oxidized TMB (oxTMB). Concurrently, HAc induces the hydrolysis of ZIF-8, resulting in the release of encapsulated Thi, generating electrochemical current. Upon CP addition, AChE activity is selectively inhibited, reducing the production of both TCh and HAc. The complementary dual-mode sensor exhibits good analytical results (electrochemical mode: 0.1–60 ng/mL; colorimetric mode: 0.5–60 ng/mL) and satisfactory performance in real-sample analysis. This study not only provides an effective strategy for sensitive and accurate monitoring of OPs through the synergistic integration of inorganic oxides with metal-organic frameworks (MOFs) but also offers new insights into the design of multifunctional nanozymes for multimodal sensing platforms.</p> Graphical Abstract <p></p>

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MnO2@Thi/ZIF-8 composite-driven complementary dual-mode biosensor: integration of oxidase-mimetic activity and electroactive signal for sensitive detection of organophosphorus pesticides

  • Jiawei Liu,
  • Chenqi Bao,
  • Zhenjie Guan,
  • Xiaoqing Li,
  • Minghui Yang,
  • Jiao Wu

摘要

A complementary dual-mode biosensor was constructed for determination of chlorpyrifos (CP) using a multifunctional composite consisting of MnO2@thionine/ZIF-8 (MnO2@Thi/ZIF-8). This composite synergistically combines the good oxidase-mimetic activity of MnO2 dispersed on the surface of ZIF-8 with the stable electroactivity of thionine (Thi) encapsulated within detachable ZIF-8 framework, enabling dual-mode detection of CP. In the presence of acetylcholinesterase (AChE) and its substrate acetylthiocholine (ATCh), enzymatic hydrolysis quantitatively produces acetic acid (HAc) and thiocholine (TCh). TCh acts as a reducing agent to convert MnO2 to Mn2+, leading to diminished oxidase-mimetic activity of MnO₂ and a subsequent decrease in the oxidation of 3,3’,5,5’-tetramethylbenzidine (TMB) to oxidized TMB (oxTMB). Concurrently, HAc induces the hydrolysis of ZIF-8, resulting in the release of encapsulated Thi, generating electrochemical current. Upon CP addition, AChE activity is selectively inhibited, reducing the production of both TCh and HAc. The complementary dual-mode sensor exhibits good analytical results (electrochemical mode: 0.1–60 ng/mL; colorimetric mode: 0.5–60 ng/mL) and satisfactory performance in real-sample analysis. This study not only provides an effective strategy for sensitive and accurate monitoring of OPs through the synergistic integration of inorganic oxides with metal-organic frameworks (MOFs) but also offers new insights into the design of multifunctional nanozymes for multimodal sensing platforms.

Graphical Abstract