Determination of cyanide in wastewaters using modified glassy carbon electrode with immobilized silver hexacyanoferrate nanoparticles on multiwall carbon nanotube

“…Noroozifar et al [31] reported that cyanide at a modified GC electrode with silver hexacyanferrate nanoparticles immobilized on multiwall carbon nanotube give the similar behavior as that of chloride in our studies.…”

Electrochemical detection of chloride at the multilayer nano-silver modified indium-tin oxide thin electrodes

“…Noroozifar et al [31] reported that cyanide at a modified GC electrode with silver hexacyanferrate nanoparticles immobilized on multiwall carbon nanotube give the similar behavior as that of chloride in our studies.…”

Electrochemical detection of chloride at the multilayer nano-silver modified indium-tin oxide thin electrodes

“…Also several studies have surveyed the electrodeposition of the combination of CNTs/metal ions or CNTs/metal oxides on the surface of various electrode substrates [24][25][26][27].…”

Structural and electrochemical characterization of carbon electrode modified by multi-walled carbon nanotubes and surfactant

“…A 2.5 mg of bismuth-silver (Bi-Ag) bimetallic nanoparticles were dispersed through ultrasonic vibration in 50 mL solution of deionised water to form a suspension. A defined quantity of the suspension was applied to a clean surface of GCE and dried at room temperature to get a thin film on GCE surface [29,[34][35][36][37]. After each voltammetric cycle the cleaning of the Bi-Ag bimetallic nanosensor was carried out by holding the potential of the electrode at +1.0 V. Traces of the remaining DMG complexes on the electrode surface were reduced and quickly desorbed at this potential.…”

Bismuth–silver bimetallic nanosensor application for the voltammetric analysis of dust and soil samples