2022
DOI: 10.1016/j.desal.2021.115440
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Carbon nanotubes/activated carbon hybrid as a high-performance suspension electrode for the electrochemical desalination of wastewater

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Cited by 32 publications
(8 citation statements)
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“…Variation of (a) current and (b) SAC with deionization time, (c) the relationship between SAC and specific capacitance, (d) the CE and ASAR results of different flow electrodes, (e) the relationship between CE and ASAR for materials from this work and the literature, ,, (f) the cycling stability tests of AC/PANI-2 in FCDI.…”
Section: Resultsmentioning
confidence: 91%
“…Variation of (a) current and (b) SAC with deionization time, (c) the relationship between SAC and specific capacitance, (d) the CE and ASAR results of different flow electrodes, (e) the relationship between CE and ASAR for materials from this work and the literature, ,, (f) the cycling stability tests of AC/PANI-2 in FCDI.…”
Section: Resultsmentioning
confidence: 91%
“…A higher voltage generally causes higher energy consumption. During the CV CDI research conducted by Chen et al [ 46 ], the energy consumption and charge efficiency increased simultaneously when the voltage increased. Halabaso et al [ 47 ] used manganese-vanadate-decorated reduced graphene oxide as electrodes in a symmetric CDI cell, the energy consumption of which increased by nearly 3 times as the applied voltage increased from 0.8 to 1.4 V, indicating the drastic impact of the electric field intensity on the energy consumption of CDI.…”
Section: The Impacts Of the Electrical Field And Feed Solution Proper...mentioning
confidence: 99%
“…Capacitive deionization (CDI), with its advantages of high desalination efficiency, low environmental footprint, and low energy consumption, is considered as a prospective solution to the challenge of freshwater shortage through desalination of saline water. In general, the desalination performance of a CDI system deeply depends on the electrochemistry performance of the electrode materials. , Up to now, carbon materials (such as active carbon, graphene, , and porous carbon , ) and some pseudocapacitive materials (such as transition metal oxides , and Prussian blue analogues ) have been extensively studied to use as electrode materials. However, the low adsorption capacity and sluggish desalination rate have seriously restricted their practical application. , Therefore, developing high-performance electrode materials to enhance deionization of the CDI system remains a challenge.…”
Section: Introductionmentioning
confidence: 99%