Dual Linear Range Laser-Induced Graphene-Based Sensor for 4-Nitrophenol Detection in Water

Abstract: Electrochemical sensors provide an excellent platform for in situ water pollutant detection. Graphene-based electrochemical sensors have been effective in the analysis of different genres of pollutants. However, the complex, chemically intensive steps of graphene fabrication and its modification pose challenges to the large-scale application of these sensors. Laser-induced graphene (LIG) is a promising technology with a simple, rapid, chemical-free, mask-free, and scalable solution to produce graphene-based el… Show more

“…Figure presents CV scans of PMA2TA, PMA2TA@g-C 3 N 4 , sPMA2TA, and sPMA2TA@g-C 3 N 4 electrocatalytic materials. In general, the anodic peak current ( I pa ) increases with the increasing scan rate (ν), which manifests the diffusion-limiting electrochemical redox reactions at the electrode surface. , The respective plots of I pa vs ν 1/2 , shown in Figure (insets), also illustrate a linear relationship over the range of the employed scan rates. The corresponding regression equations for each electrode are given below…”

Disposable Saliva Sensors for Early Cancer Diagnosis Using Hyper-Cross-Linked Molecularly Imprinted Polymeric Electrocatalysts

“…Figure presents CV scans of PMA2TA, PMA2TA@g-C 3 N 4 , sPMA2TA, and sPMA2TA@g-C 3 N 4 electrocatalytic materials. In general, the anodic peak current ( I pa ) increases with the increasing scan rate (ν), which manifests the diffusion-limiting electrochemical redox reactions at the electrode surface. , The respective plots of I pa vs ν 1/2 , shown in Figure (insets), also illustrate a linear relationship over the range of the employed scan rates. The corresponding regression equations for each electrode are given below…”

Disposable Saliva Sensors for Early Cancer Diagnosis Using Hyper-Cross-Linked Molecularly Imprinted Polymeric Electrocatalysts

“…The electrodes were modified with tungsten disulfide nanosheets/hydroxylated multi-walled CNTs (WS2/MWCNTs-OH) for enhanced sensitivity. A recent study reported the development of laser-induced graphene printed on polyimide films for 4-nitrophenol detection in water [ 84 ]. The presence of 4-nitrophenol induced a cyclic voltammetry response that corresponded to the concentration of 4-nitrophenol.…”

Recent Trends in Chemical Sensors for Detecting Toxic Materials

“…The sensor displayed good selectivity for 4-NP, even in the presence of isomers and other phenolic compounds and in sewage samples with different 4-NP concentrations. 206 …”

Recent advances in graphene-based electroanalytical devices for healthcare applications