Exploring Bi2MoO6 as a promising electrode material for electrochemical sensing applications DOI
Yifan Chen, Li Fu, Cheng‐Te Lin

и другие.

Sensor Review, Год журнала: 2025, Номер unknown

Опубликована: Май 16, 2025

Purpose This study aims to critically analyze the recent advances in Bi 2 MoO 6 -based electrochemical sensing technologies, focusing on material synthesis, modification strategies and diverse applications while identifying key challenges future research directions. Design/methodology/approach review systematically examines structural physicochemical properties of , various electrode fabrication methods including nanostructuring, composite formation polymer integration. The analysis encompasses developments environmental monitoring (e.g. heavy metals pesticide detection), biomedical diagnostics glucose prostate-specific antigen detection) food safety antibiotics residues detection). Key identified include improving intrinsic conductivity, enhancing stability complex matrices achieving scalability for practical applications. Future directions highlighted developing hierarchical nanostructures, exploring green synthesis approaches integrating into multifunctional platforms. Findings reveals that sensors exhibit exceptional performance characteristics, particularly when modified with conductive materials or formed heterojunctions. demonstrate remarkable detection capabilities across analytes, limits ranging from femtomolar nanomolar levels. incorporation oxygen vacancies surface modifications significantly enhances sensor sensitivity stability, like graphene carbon nanotubes effectively addresses conductivity limitations. Originality/value comprehensive provides valuable insights relationship between performance, offering guidance design. uniquely highlights synergistic effects different presents a critical assessment current limitations potential solutions, serving as reference researchers science development.

Язык: Английский

Exploring Bi2MoO6 as a promising electrode material for electrochemical sensing applications DOI
Yifan Chen, Li Fu, Cheng‐Te Lin

и другие.

Sensor Review, Год журнала: 2025, Номер unknown

Опубликована: Май 16, 2025

Purpose This study aims to critically analyze the recent advances in Bi 2 MoO 6 -based electrochemical sensing technologies, focusing on material synthesis, modification strategies and diverse applications while identifying key challenges future research directions. Design/methodology/approach review systematically examines structural physicochemical properties of , various electrode fabrication methods including nanostructuring, composite formation polymer integration. The analysis encompasses developments environmental monitoring (e.g. heavy metals pesticide detection), biomedical diagnostics glucose prostate-specific antigen detection) food safety antibiotics residues detection). Key identified include improving intrinsic conductivity, enhancing stability complex matrices achieving scalability for practical applications. Future directions highlighted developing hierarchical nanostructures, exploring green synthesis approaches integrating into multifunctional platforms. Findings reveals that sensors exhibit exceptional performance characteristics, particularly when modified with conductive materials or formed heterojunctions. demonstrate remarkable detection capabilities across analytes, limits ranging from femtomolar nanomolar levels. incorporation oxygen vacancies surface modifications significantly enhances sensor sensitivity stability, like graphene carbon nanotubes effectively addresses conductivity limitations. Originality/value comprehensive provides valuable insights relationship between performance, offering guidance design. uniquely highlights synergistic effects different presents a critical assessment current limitations potential solutions, serving as reference researchers science development.

Язык: Английский

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