(Bio)chemical sensors based on conjugated polymers - Principles, technologies and applications

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(Bio)chemical sensors based on conjugated polymers - Principles, technologies and applications

Author : Boris LAKARD

Publication date: February 10, 2026 | Lire en français

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ABSTRACT

Conjugated polymers can be used as sensitive layers in chemical (bio)sensors, enabling the selective detection of a wide range of chemical or biological molecules in both liquid and gaseous environments by converting the presence of target molecules into an electrochemical or optical signal. The article begins by introducing conjugated polymers and their key properties, followed by an explanation of the operating principles of sensors that incorporate them. It then explores recent advancements in sensor technologies, methods for combining polymers with other functional components to enhance detection capabilities, and a selection of application examples.

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AUTHOR

  • Boris LAKARD : University professor - UTINAM Institute (UMR CNRS 6213), Marie and Louis Pasteur University, Besançon, France

 INTRODUCTION

Since the invention of the glass electrode in 1906, chemical and biological sensors have played a central role in many scientific and industrial fields. They enable rapid, selective, and sensitive detection of a wide range of analytes.

Among the materials used to design these sensors, conjugated polymers are becoming increasingly popular due to their unique electronic and optical properties, combined with their high chemical versatility. Initially developed for their conductive properties, these polymers have quickly established themselves as the materials of choice for manufacturing sensitive layers in electrochemical and optical sensors, thanks to their compatibility with simple deposition techniques, their ability to be functionalized, and their capacity to translate molecular events into measurable signals.

This article presents conjugated polymers, their properties, and the deposition techniques used to manufacture sensitive films (§ 1 ), before describing the operating principles of (bio)chemical sensors using these materials (§ 2 ).

He then details the detection mechanisms (variations in conductivity, potential, current, or optical responses induced by the analyte/polymer interaction) chosen to detect the presence of a target molecule in a liquid or gaseous medium, and demonstrates the importance of the choice of sensitive layers (§ 3

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KEYWORDS

Chemical (Bio)sensors   |   Conjugated polymers   |   Analytical (electro)chemistry

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