Highly sensitive electrochemical sensing of neurotransmitter dopamine from scalable UV irradiation-based nitrogen-doped reduced graphene oxide-modified electrode

“…Thus, a HNGA modified electrode showed an excellent electrochemical response to the three Other N-rGO synthesis methods have also been developed and studied for DA electrochemical sensing. Soni et al [58] have recently developed a simple, cost-effective and low-temperature synthesis route to N-rGO using a photocatalytic approach. For the photocatalytic synthesis of N-rGO, aqueous GO was mixed with ammonia solution which is used as a precursor of an N dopant, then the mixture was stirred followed by UV illumination for 60 min to achieve the photo-catalytic reduction of RGO.…”

Review—Recent Progress in Graphene Based Modified Electrodes for Electrochemical Detection of Dopamine

“…Thus, a HNGA modified electrode showed an excellent electrochemical response to the three Other N-rGO synthesis methods have also been developed and studied for DA electrochemical sensing. Soni et al [58] have recently developed a simple, cost-effective and low-temperature synthesis route to N-rGO using a photocatalytic approach. For the photocatalytic synthesis of N-rGO, aqueous GO was mixed with ammonia solution which is used as a precursor of an N dopant, then the mixture was stirred followed by UV illumination for 60 min to achieve the photo-catalytic reduction of RGO.…”

Review—Recent Progress in Graphene Based Modified Electrodes for Electrochemical Detection of Dopamine

CeO2 nanocubes-based electrochemical sensor for the selective and simultaneous determination of dopamine in the presence of uric acid and ascorbic acid

Synthesis of heteroatoms doped reduced graphene oxide for the electrochemical determination of uric acid in commercial milk