Recent Progress in Photoelectrochemical Sensing of Pesticides in Food and Environmental Samples: Photoactive Materials and Signaling Mechanisms

Abstract: Pesticides have become an integral part of modern agricultural practices, but their widespread use poses a significant threat to human health. As such, there is a pressing need to develop effective methods for detecting pesticides in food and environmental samples. Traditional chromatography methods and common rapid detection methods cannot satisfy accuracy, portability, long storage time, and solution stability at the same time. In recent years, photoelectrochemical (PEC) sensing technology has gained attenti… Show more

“…Furthermore, with advancements in nanotechnology, the design and selection of nanoparticles for the surface functionalization of an electrode are crucial, as they possess unique optical, electrical, thermal, and catalytic properties that can significantly influence sensing performance. These nanomaterials can be metallic nanoparticles [ 7 ], carbon nanotubes [ 8 ], or nanoparticles made of semiconductor materials [ 9 ]. The latter have dimensions comparable to the dimensions of biomolecules (enzymes, antigens/antibodies, DNA, etc.…”

Novel and Extremely Sensitive NiAl2O4-NiO Nanostructures on an ITO Sensing Electrode for Enhanced Detection of Ascorbic Acid

“…Furthermore, with advancements in nanotechnology, the design and selection of nanoparticles for the surface functionalization of an electrode are crucial, as they possess unique optical, electrical, thermal, and catalytic properties that can significantly influence sensing performance. These nanomaterials can be metallic nanoparticles [ 7 ], carbon nanotubes [ 8 ], or nanoparticles made of semiconductor materials [ 9 ]. The latter have dimensions comparable to the dimensions of biomolecules (enzymes, antigens/antibodies, DNA, etc.…”

Novel and Extremely Sensitive NiAl2O4-NiO Nanostructures on an ITO Sensing Electrode for Enhanced Detection of Ascorbic Acid

Novel self-powered anti-interference photoelectrochemical sensor via zirconium porphyrin-based metal–organic framework as multifunctional signal label for oxytetracycline detection in food and environment