Dinesh J. Ahirrao scite author profile

In this article, we have proposed a simple, environmentally benign and highly effective method for the reduction of graphene oxide (GO) by using carbonic acid as a chemical reducing agent to synthesize the reduced graphene oxide (rGO). Carbonic acid has been synthesized by mixing the dry ice (solid CO2) with deionized water and by the mixing of acetic acid and sodium bicarbonate. The formed carbonic acid utilized to remove the oxygen‐containing functionalities of GO to produce rGO. Surprisingly, the synthesized rGO has shown aqueous dispersible property, which helps to disperse rGO in water for a prolonged time. The electrochemical activity of resulting materials has been achieved by measuring specific capacitance by cyclic voltammetry (CV) and galvanostatic charge‐discharge (GCD). Specific capacitance of resultant material is 350.3 F g−1 at 1 A g−1 with good cyclic stability performance indicating supercapacitive nature of the resultant material. According to the data obtained, it is observed that as‐prepared carbonic acid is capable of producing carboxyl functionalized graphene which leads to disperse rGO in water. This preparative method will overcome the problems to prepare rGO dispersion in aqueous medium rather than in hazardous organic solvents.

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TiO2-nanoflowers as flexible electrode for high performance supercapacitor

Ahirrao

Wilson

Jha

2019

Applied Surface Science

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Enzyme embedded microfluidic paper-based analytic device (μPAD): a comprehensive review

Nadar

Patil

Tiwari

et al. 2021

Critical Reviews in Biotechnology

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Dinesh J. Ahirrao

Nanostructured porous polyaniline (PANI) coated carbon cloth (CC) as electrodes for flexible supercapacitor device

Biomass-derived porous carbon for excellent low intensity solar steam generation and seawater desalination

Synthesis of Aqueous Dispersible Reduced Graphene Oxide by the Reduction of Graphene Oxide in Presence of Carbonic Acid

TiO2-nanoflowers as flexible electrode for high performance supercapacitor

Enzyme embedded microfluidic paper-based analytic device (μPAD): a comprehensive review

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