Nanomaterial ink for on-site painted sensor on studies of the electrochemical detection of organophosphorus pesticide residuals of supermarket vegetables

“…Both single-walled carbon nanotubes (SWCNTs) and multi-walled carbon nanotubes (MWCNTs) [ 81 ] can enhance the electrochemical sensing performance, having high electrical conductivity due to their one-dimensional electronic pathways to accumulate effective charge transportation to electrodes and large surface area [ 81 , 82 ]. Other materials, such as bismuth films, polymers, and silicon carbide (SiC) have also been seen to contribute to the electrochemical performances of OPs [ 83 , 84 , 85 ]. The abundance of these nanomaterials and their cost in terms of their properties controls the selection of these materials in electrochemical sensors.…”

Recent Advances of Enzyme-Free Electrochemical Sensors for Flexible Electronics in the Detection of Organophosphorus Compounds: A Review

“…Both single-walled carbon nanotubes (SWCNTs) and multi-walled carbon nanotubes (MWCNTs) [ 81 ] can enhance the electrochemical sensing performance, having high electrical conductivity due to their one-dimensional electronic pathways to accumulate effective charge transportation to electrodes and large surface area [ 81 , 82 ]. Other materials, such as bismuth films, polymers, and silicon carbide (SiC) have also been seen to contribute to the electrochemical performances of OPs [ 83 , 84 , 85 ]. The abundance of these nanomaterials and their cost in terms of their properties controls the selection of these materials in electrochemical sensors.…”

Recent Advances of Enzyme-Free Electrochemical Sensors for Flexible Electronics in the Detection of Organophosphorus Compounds: A Review

“…In 2019, Wang and co‐workers reported a paintable nanomaterial ink using silicon carbide NPs (SiC NPs) and multi‐walled carbon nanotubes (MWCNTs) for on‐site tracing parathion residues on vegetables. [ 40 ] After dispersing SiC NPs and MWCNTs, the obtained ink was further stabilized by chitosan fixing glue to form chitosan coated electrode ink (SiCNPs@MWCNTs‐CS), which showed excellent electrochemical response to parathion, reaching a LOD of 20 ng mL −1 . Moreover, the electrode ink was used to detect parathion in real agricultural products of Chinese cabbage, cucumber, and sweet potato leaf, and the recoveries were 76.0–96.2%.…”

“…[35] As a result, metal-based nanomaterials with the effect of pathogenic microorganism inactivation and pesticides detection open a door for agriculture science. Besides, other nano materials including carbon-based nanomaterials, [36] enzyme-like optical sensor, [37,38] quantum dots (QDs), [39] and silicon carbide NPs [40] will be contained in detail.…”

Eco‐Friendly Nanoplatforms for Crop Quality Control, Protection, and Nutrition

“…In agricultural ecosystems, CNTs were used as nanosensors for various tasks involving detection and release of toxic substances to regulate plant growth and also to increase the life of fruits aer harvest. [22][23][24][25][26][27] But also some toxic effects have been recorded for CNTs in soil and specically in the agricultural sector. 28,29 In a more fundamental study, Hyung and Kim 30 investigated the adsorption behavior of standard humic and fulvic acids to multi-walled carbon nanotubes (MWCNTs).…”

Coarse-grained molecular dynamics simulations of nanoplastics interacting with a hydrophobic environment in aqueous solution