Self-powered photoelectrochemical sensor activated by In2O3/CdTe@ZnS-photoanode coupled with manganese porphyrin-double quenching for methyltransferase detection

A unique self-powered photoelectrochemical (PEC) biosensor is fabricated by integrating CuInS2 nanoflowers (CIS NFs) photocathode and CdTe@ZnS/In2O3 photoanode for sensitive detection of methyltransferase (Dam MTase). CdTe@ZnS quantum dots (QDs)-modified porous In2O3 with excellent photoelectric act...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Chemical, 2024-01, Vol.398, p.134750, Article 134750
Main Authors: Dong, Wenshuai, Li, Zhikang, Wang, Bing, Jie, Guifen, Zhou, Hong
Format: Article
Language:English
Subjects:
Biosensor
CdTe@ZnS/In2O3
Photoanode
Self-powered
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Summary:A unique self-powered photoelectrochemical (PEC) biosensor is fabricated by integrating CuInS2 nanoflowers (CIS NFs) photocathode and CdTe@ZnS/In2O3 photoanode for sensitive detection of methyltransferase (Dam MTase). CdTe@ZnS quantum dots (QDs)-modified porous In2O3 with excellent photoelectric activity was used as photoanode, and CIS NFs were used as photocathode for biosensing interface. The direct electron transfer and synergistic enhancement of the dual-electrode guarantees sufficient photocurrent driving force for the self-powered PEC system without external power supply. Under the action of Dam MTase and endonuclease Dpn I (Dam-Dpn I), Hp DNA on the electrode was broken down into single-stranded DNA (ssDNA) to immobilize the manganese porphyrin-rich (MnPP) DNA networks. MnPP can not only acted as a burst probe to quench the photocurrent, but also as a mimetic enzyme to catalyze the generation of benzo-4-chloro-hexadienone (4-CD) precipitation in the presence of H2O2, which further reduces the photocurrent, leading to obvious change of PEC signal for Dam MTase detection. The sensor combines excellent photocatalytic performance and anti-interference of self-powered PEC sensor to achieve efficient detection of Dam MTase. The proposed strategy of integrating photocathode and photoanode offers a promising avenue for developing other high-performance PEC sensors for many biologicals. •A unique self-powered PEC biosensor is fabricated by integrating CuInS2 and CdTe@ZnS/ In2O3 for Dam MTase detection.•The direct electron transfer guarantees sufficient photocurrent driving force for PEC system without external power supply.•This work develops a unique anode In2O3 /CdTe@ZnS material to amplify photocurrent in self-powered PEC sensors.•The sensor combines excellent photocatalytic performance of photoanode and anti-interference of photocathode sensing.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2023.134750