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A Chemical Redox Cycling-Based Dual-Mode Biosensor for Self-Powered Photoelectrochemical and Colorimetric Assay of Heat Shock Protein

ACS Sensors [2025]
Xue-Bo Hu, Yu-Ling Wang, Jing-Lu Lv, Meng-Yuan Zheng, Shu-Hui Ma, Jun-Tao Cao, Yan-Ming Liu
ABSTRACT

To advance the biological understanding of heat shock protein (HSP) in different types of cancers, it is crucial to achieve its accurate determination. Herein, a dual-mode self-powered photoelectrochemical (PEC) and colorimetric platform was proposed by integrating enzymatic catalysis and a chemical redox cycling amplification strategy. In this system, ascorbic acid (AA), as the signal reporter for PEC and colorimetric assay, can be regenerated during the tris(2-carboxyethyl) phosphine-mediated chemical redox cycling process. For PEC detection, the reproduced electron donor AA could repeatedly combine with holes generated by the Bi2S3/Bi2O3 photoanode to effectively separate the photogenerated electron–hole. Besides, an AA-involved color reaction was evoked during the colorimetric assay to reduce colorless tris(bathophenanthroline) iron(III) to red tris(bathophenanthroline) iron(II). Owing to the ingenious signal amplification strategy, the developed dual-mode assay achieved the PEC and colorimetric determination of HSP90AA1 (one subtype of HSP family) in real samples. It is believed that this work will offer a new strategy to fabricate a dual-mode biosensor, which has great application prospects in the detection of various tumor biomarkers.

MATERIALS

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