Microbial Desalination Cells with Efficient Platinum-Group-Metal-Free Cathode Catalysts
Microbial Desalination Cells with Efficient Platinum-Group-Metal-Free Cathode Catalysts
An iron-nitrogen-carbon-based catalyst was used at the cathode of a microbial desalination cell (MDC) and compared with platinum (Pt) and an activated carbon (AC) cathode. The Fe-N−C catalyst was prepared by using nicarbazin (NCB) as the organic precursor through a sacrificial support method (SSM). Rotating ring disk electrode (RRDE) experiments show that Fe-NCB had a higher electrocatalytic activity compared to AC and Pt. The utilization of Fe-NCB in the cathode substantially improved the performance output with an initial maximum power density of 49±2 μW cm−2 in contrast to Pt and AC catalysts, which show lower values of 34±1 and 23.5±1.5 μW cm−2, respectively. After four cycles, Fe-NCB catalyst lost 15 % of its initial performance, but still was 1.3 and 1.8 times more active than Pt and AC, respectively. Solution conductivity inside the desalination chamber (DC) decreased by 46–55 % with every cycle. The pH of the cathodic chamber and the DC increased to 10–11, owing to the production of OH− during the oxygen reduction reaction and the migration of OH− into the DC. Chemical organic demand decreased by 73–83 % during each cycle. It was shown that Fe-NCB and Pt had a similar coulombic efficiency (CE) of 39±7 % and 38±2 %, whereas AC had lower CE (24±5 %).
microbial desalination cell, oxygen reduction reaction, PGM-free catalyst, power generation, desalination
3322-3330
Santoro, Carlo
03549f6d-d57f-4d79-8bae-2d9271aa7371
Talarposhti, Morteza Rezaei
0cdb3610-0702-4151-ba2d-49fe218acbc0
Kodali, Mounika
40a7e520-fcc7-46d0-bddf-5d03281fd902
Gokhale, Rohan
dae01710-6626-46e8-95d7-55e326a94330
Serov, Alexey
d546edc2-cf7a-4b1a-a443-70bffdd636a3
Merino-Jimenez, Irene
49102842-915c-4d2c-a6bd-169e5b9aab41
Ieropoulos, Ioannis
6c580270-3e08-430a-9f49-7fbe869daf13
Atanassov, Plamen
a1fe7e9b-9386-448a-90a8-a870c3163922
December 2017
Santoro, Carlo
03549f6d-d57f-4d79-8bae-2d9271aa7371
Talarposhti, Morteza Rezaei
0cdb3610-0702-4151-ba2d-49fe218acbc0
Kodali, Mounika
40a7e520-fcc7-46d0-bddf-5d03281fd902
Gokhale, Rohan
dae01710-6626-46e8-95d7-55e326a94330
Serov, Alexey
d546edc2-cf7a-4b1a-a443-70bffdd636a3
Merino-Jimenez, Irene
49102842-915c-4d2c-a6bd-169e5b9aab41
Ieropoulos, Ioannis
6c580270-3e08-430a-9f49-7fbe869daf13
Atanassov, Plamen
a1fe7e9b-9386-448a-90a8-a870c3163922
Santoro, Carlo, Talarposhti, Morteza Rezaei, Kodali, Mounika, Gokhale, Rohan, Serov, Alexey, Merino-Jimenez, Irene, Ieropoulos, Ioannis and Atanassov, Plamen
(2017)
Microbial Desalination Cells with Efficient Platinum-Group-Metal-Free Cathode Catalysts.
ChemElectroChem, 4 (12), .
(doi:10.1002/celc.201700626).
Abstract
An iron-nitrogen-carbon-based catalyst was used at the cathode of a microbial desalination cell (MDC) and compared with platinum (Pt) and an activated carbon (AC) cathode. The Fe-N−C catalyst was prepared by using nicarbazin (NCB) as the organic precursor through a sacrificial support method (SSM). Rotating ring disk electrode (RRDE) experiments show that Fe-NCB had a higher electrocatalytic activity compared to AC and Pt. The utilization of Fe-NCB in the cathode substantially improved the performance output with an initial maximum power density of 49±2 μW cm−2 in contrast to Pt and AC catalysts, which show lower values of 34±1 and 23.5±1.5 μW cm−2, respectively. After four cycles, Fe-NCB catalyst lost 15 % of its initial performance, but still was 1.3 and 1.8 times more active than Pt and AC, respectively. Solution conductivity inside the desalination chamber (DC) decreased by 46–55 % with every cycle. The pH of the cathodic chamber and the DC increased to 10–11, owing to the production of OH− during the oxygen reduction reaction and the migration of OH− into the DC. Chemical organic demand decreased by 73–83 % during each cycle. It was shown that Fe-NCB and Pt had a similar coulombic efficiency (CE) of 39±7 % and 38±2 %, whereas AC had lower CE (24±5 %).
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Published date: December 2017
Keywords:
microbial desalination cell, oxygen reduction reaction, PGM-free catalyst, power generation, desalination
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Local EPrints ID: 454054
URI: http://eprints.soton.ac.uk/id/eprint/454054
ISSN: 2196-0216
PURE UUID: 814463d9-0367-491f-b0a7-20a8119ffd9a
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Date deposited: 27 Jan 2022 19:21
Last modified: 17 Mar 2024 04:10
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Author:
Carlo Santoro
Author:
Morteza Rezaei Talarposhti
Author:
Mounika Kodali
Author:
Rohan Gokhale
Author:
Alexey Serov
Author:
Irene Merino-Jimenez
Author:
Plamen Atanassov
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