Nano-manganese oxide and reduced graphene oxide-incorporated polyacrylonitrile fiber mats as an electrode material for capacitive deionization (CDI) technology.

Autor:	Siriwardane IW; Centre for Advanced Materials and Devices (CAMD), Department of Chemistry, University of Colombo Colombo 00300 Sri Lanka kmnd@chem.cmb.ac.lk.; Sri Lanka Institute of Nanotechnology (SLINTEC), Nanotechnology and Science Park Mahenwatte, Pitipana, Homagama Sri Lanka., Rathuwadu NPW; Sri Lanka Institute of Nanotechnology (SLINTEC), Nanotechnology and Science Park Mahenwatte, Pitipana, Homagama Sri Lanka., Dahanayake D; Sri Lanka Institute of Nanotechnology (SLINTEC), Nanotechnology and Science Park Mahenwatte, Pitipana, Homagama Sri Lanka., Sandaruwan C; Sri Lanka Institute of Nanotechnology (SLINTEC), Nanotechnology and Science Park Mahenwatte, Pitipana, Homagama Sri Lanka., de Silva RM; Centre for Advanced Materials and Devices (CAMD), Department of Chemistry, University of Colombo Colombo 00300 Sri Lanka kmnd@chem.cmb.ac.lk., de Silva KMN; Centre for Advanced Materials and Devices (CAMD), Department of Chemistry, University of Colombo Colombo 00300 Sri Lanka kmnd@chem.cmb.ac.lk.; Sri Lanka Institute of Nanotechnology (SLINTEC), Nanotechnology and Science Park Mahenwatte, Pitipana, Homagama Sri Lanka.
Jazyk:	angličtina
Zdroj:	Nanoscale advances [Nanoscale Adv] 2021 Mar 11; Vol. 3 (9), pp. 2585-2597. Date of Electronic Publication: 2021 Mar 11 (Print Publication: 2021).
DOI:	10.1039/d0na01075h
Abstrakt:	Capacitive deionization (CDI) is a trending water desalination method during which the impurity ions in water can be removed by electrosorption. In this study, nano-manganese dioxide (MnO 2 ) and reduced graphene oxide (rGO)-doped polyacrylonitrile (PAN) composite fibers are fabricated using an electrospinning technique. The incorporation of both MnO 2 and rGO nanomaterials in the synthesized fibers was confirmed by transmission electron microscopy (TEM), scanning electron microscopy (SEM), and energy dispersive X-ray spectroscopy (EDX). The electrochemical characteristics of electrode materials were examined using cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS) and constant current charge-discharge cycles (CCCDs). The specific capacitance of the PAN electrode increased with increasing MnO 2 and rGO contents as well as when thermally treated at 280 °C. Thermally treated composite fibers with 17% (w/w) MnO 2 and 1% (w/w) rGO (C-rGOMnPAN) were observed to have the best electrochemical performance, with a specific capacitance of 244 F g ^-1 at a 10 mV s ^-1 scan rate. The electrode system was used to study the removal of sodium chloride (NaCl), cadmium (Cd ²⁺ ) and lead (Pb ²⁺ ) ions. Results indicated that NaCl showed the highest electrosorption (20 472 C g ^-1 ) compared to two heavy metal salts (14 260 C g ^-1 for Pb ²⁺ and 6265 C g ^-1 for Cd ²⁺ ), which is most likely to be due to the ease of mass transfer of lighter Na ⁺ and Cl ^- ions; When compared, Pb ²⁺ ions tend to show more electrosorption on these fibers than Cd ²⁺ ions. Also, the C-rGOMnPAN electrode system is shown to work with 95% regeneration efficiency when 100 ppm NaCl is used as the electrolyte. Hence, it is clear that the novel binder-free, electrospun C-rGOMnPAN electrodes have the potential to be used in salt removal and also for the heavy metal removal applications of water purification. Competing Interests: There are no conflicts to declare. (This journal is © The Royal Society of Chemistry.)
Databáze:	MEDLINE
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