Characteristics and Vanadium Adsorption Performance of Resin/Carbon Composite Electrodes in Capacitive Deionization

Abstract: Activated carbon (AC) and carbon nanotubes (CNTs) were used to fabricate resin/carbon composite electrodes (D314/AC and D314/CNTs). The adsorption characteristics of vanadium (V) on the two electrodes under different pH and voltage conditions were compared in capacitive deionization. Physical and electrochemical studies on the electrodes indicated that micropores and mesopores are well balanced in D314/AC, but mesopores are dominant in D314/CNTs. D314/ CNTs showed higher specific capacitance and higher ion ads… Show more

“…The developed adsorption and desorption methodology is compared to earlier reports on vanadium and tungsten adsorption in Table 5. [35][36][37][38][39][40][41][42][43] The present metal removal and separation method is comparable to previously reported methods.…”

Separation of vanadium and tungsten from synthetic and spent catalyst leach solutions using an ion-exchange resin

“…The developed adsorption and desorption methodology is compared to earlier reports on vanadium and tungsten adsorption in Table 5. [35][36][37][38][39][40][41][42][43] The present metal removal and separation method is comparable to previously reported methods.…”

Separation of vanadium and tungsten from synthetic and spent catalyst leach solutions using an ion-exchange resin

“…As a one-dimensional nanomaterial, the core properties of carbon nanotubes are mainly mechanical properties, 7 electrical properties, 8 thermal properties 9 and chemical properties. 10 Grafting functional groups on the open ends and sidewalls of carbon nanotubes is used to increase their dispersibility in aqueous solutions.…”

Preparation of recyclable materials for removing heavy metal ions in aqueous solution and wastewater applications

ZIF-8-derived porous carbon: application in capacitive deionization for vanadium (V) adsorption