Combination Of Miniature Electrode Systems Via Nanomaterials: Pesticide Analysis

Abstract

Pesticides are vital in modern agriculture for controlling pests and diseases, thereby enhancing crop yields and food security. However, their extensive use has raised environmental and health concerns due to their persistence and toxicity. Conventional detection methods, such as high-performance liquid chromatography and gas chromatography, are effective but often costly and time-consuming, prompting the need for alternative approaches. Electrochemical methods emerge as promising solutions for pesticide analysis owing to their affordability, simplicity, and suitability for field applications. The incorporation of nanomaterials into electrochemical sensors significantly enhances their sensitivity and selectivity. Nanomaterials, including noble metals, carbon nanotubes, and metal oxide nanoparticles, improve sensor performance through their unique physical, chemical, and biological properties. This review examines recent advancements in miniature electrochemical sensors for pesticide detection, including contemporary literature. It discusses the structure, applications, and impacts of pesticides, and highlights the advantages of electrochemical sensors enhanced by nanomaterials. Various electrode types and their modifications with nanomaterials are evaluated. Additionally, the integration of smartphone technology and innovative approaches such as lab-on-a-chip and portable sensors are explored. By incorporating recent studies, this review provides a comprehensive reference for developing advanced, portable, and in situ analyzers utilizing nanomaterials, aiming to enhance food safety, human health, and environmental monitoring.