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Porphyrin-Based Covalent Organic Framework Thin Films as Cathodic Materials for “On–Off–On” Photoelectrochemical Sensing of Lead Ions

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    Organic Electronic Devices

    Porphyrin-Based Covalent Organic Framework Thin Films as Cathodic Materials for “On–Off–On” Photoelectrochemical Sensing of Lead Ions
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    Cite this: ACS Appl. Mater. Interfaces 2021, 13, 17, 20397–20404
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    https://doi.org/10.1021/acsami.1c00335
    Published April 21, 2021
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    Abstract

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    Currently, cathodic photoelectrochemical (PEC) sensors, which could effectively reduce background interference, are urgently required for ultrasensitive environmental monitoring. Herein, porphyrin-based covalent organic framework (TAPP-COF) thin films were fabricated via a bottom-up growth approach on the liquid/liquid interface and applied as a photocathode material to “on–off–on” PEC sensing of Pb2+. Benefitting from the unique charge channels of COFs and the good photoelectric properties of porphyrin, the as-prepared TAPP-COF thin films presented an improved photocathodic current, with a strongly enhanced “signal-on” response with low background. Then, CdSe@SiO2 quantum dots (QDs), as a quenching agent, were introduced through a hybridization chain reaction (HCR) to obtain a “signal off” PEC response. Afterward, with the introduction of target Pb2+, CdSe@SiO2 QDs were detached from TAPP-COF thin films, and the PEC response transformed into a signal-on state. Benefiting from the multiple-quenching and steric hindrance effect of CdSe@SiO2 QDs and the photocathodic property of TAPP-COFs, accurate monitoring of Pb2+ in a wide detection range from 0.05 to 1000 nM with a lower detection limit of 0.012 nM was realized based on the proposed on–off–on PEC approach. Notably, the methodology provides an efficient platform for ultrasensitive determination of heavy metal ions, which would play a significant role in environmental monitoring and public safety fields.

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