A graphene-printed paper electrode for determination of H2O2 in municipal wastewater during the COVID-19 pandemic

Recently, hydrogen peroxide (H2O2) has been used as a disinfectant in sanitizers for cleaning hands, and solid surfaces of hospitals, offices and homes to prevent the spread of the COVID-19 virus. The effluents from domestic, hospital and municipal waste should be monitored for their H2O2 content to...

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Veröffentlicht in:	New journal of chemistry 2022-01, Vol.46 (3), p.1362-1370
Hauptverfasser:	Kant, Tushar, Shrivas, Kamlesh, Karbhal, Indrapal, Monisha, Yadav, Sanjay, Tikeshwari, Sahu, Sushama, Yugal Kishor Mahipal, Ganesan, Vellaichamy
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Sprache:	eng
Schlagworte:	Coronaviruses COVID-19 Disease control Electrodes Ethyl cellulose Graphene Household wastes Hydrogen peroxide Inkjet printing Pollutants Solid surfaces Surface tension Wastewater
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creator	Kant, Tushar Shrivas, Kamlesh Karbhal, Indrapal Monisha Yadav, Sanjay Tikeshwari Sahu, Sushama Yugal Kishor Mahipal Ganesan, Vellaichamy
description	Recently, hydrogen peroxide (H2O2) has been used as a disinfectant in sanitizers for cleaning hands, and solid surfaces of hospitals, offices and homes to prevent the spread of the COVID-19 virus. The effluents from domestic, hospital and municipal waste should be monitored for their H2O2 content to avoid the entry of this toxic pollutant into the ecosystem. Therefore, we developed a low-cost graphene (Gr)-printed paper electrode for determination of H2O2 using cyclic voltammetry (CV). An office inkjet-printer and Gr nano-ink stabilized with ethyl cellulose (EC) were used for the fabrication of printed paper electrodes (PPEs) to determine H2O2 quantitatively. A stable Gr–EC nano-ink (2%) with viscosity and surface tension values of 12 mPa S−1 and 35 mN M−1, respectively, was formulated to obtain conductive electrodes. A wide linear range (2 μM–25 mM) with a better limit of detection (0.28 μM) for the determination of H2O2 was obtained when the Gr–EC/PPE was used as a working electrode. Further, the Gr–EC/PPE was successfully employed for analysis of H2O2 in wastewater. The electrochemical determination of H2O2 using the Gr–EC/PPE as an electrode in CV is rapid, economical, flexible and eco-friendly when compared with previously reported methods.
doi_str_mv	10.1039/d1nj05763d
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The effluents from domestic, hospital and municipal waste should be monitored for their H2O2 content to avoid the entry of this toxic pollutant into the ecosystem. Therefore, we developed a low-cost graphene (Gr)-printed paper electrode for determination of H2O2 using cyclic voltammetry (CV). An office inkjet-printer and Gr nano-ink stabilized with ethyl cellulose (EC) were used for the fabrication of printed paper electrodes (PPEs) to determine H2O2 quantitatively. A stable Gr–EC nano-ink (2%) with viscosity and surface tension values of 12 mPa S−1 and 35 mN M−1, respectively, was formulated to obtain conductive electrodes. A wide linear range (2 μM–25 mM) with a better limit of detection (0.28 μM) for the determination of H2O2 was obtained when the Gr–EC/PPE was used as a working electrode. Further, the Gr–EC/PPE was successfully employed for analysis of H2O2 in wastewater. 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subjects	Coronaviruses COVID-19 Disease control Electrodes Ethyl cellulose Graphene Household wastes Hydrogen peroxide Inkjet printing Pollutants Solid surfaces Surface tension Wastewater
title	A graphene-printed paper electrode for determination of H2O2 in municipal wastewater during the COVID-19 pandemic
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