Conversion of reverse osmosis membranes into metal-free carbocatalyst for electrochemical syngas production
Reverse osmosis (RO) membranes are widely employed in water treatment, raising needs for developing spent membrane modules waste management system. This study investigates the upcycling of spent RO membranes through a facile two-step process into functional carbocatalysts that can be successfully ap...
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sg-ntu-dr.10356-1621712022-10-07T05:13:03Z Conversion of reverse osmosis membranes into metal-free carbocatalyst for electrochemical syngas production Chen, Jie Veksha, Andrei Fu, Xiaoxu Zhao, Ke Huang, Jijiang Liang, Lili Lisak, Grzegorz School of Civil and Environmental Engineering Interdisciplinary Graduate School (IGS) Nanyang Environment and Water Research Institute Residues and Resource Reclamation Centre Engineering::Civil engineering Metal-Free Catalysts Pyrolytic Char Nitrogen Doping Reverse osmosis (RO) membranes are widely employed in water treatment, raising needs for developing spent membrane modules waste management system. This study investigates the upcycling of spent RO membranes through a facile two-step process into functional carbocatalysts that can be successfully applied in electrochemical syngas production with tunable CO/H2 ratios. At first, the spent RO membrane module was pyrolyzed at 600 °C into char. The obtained char demonstrated poor electrochemical performance. Therefore, the char was further subjected to a high temperature (700–1000 °C) doping with melamine. The presence of melamine and the heat treatment were found crucial to convert the char into electrochemically active carbocatalysts. The prepared carbocatalysts showed an enhanced electrochemical reduction capability towards CO2 and H2O producing a mixture of CO and H2. The higher heat treatment temperature of the char increased the carbonization degree and the relative content of graphitic N groups. As a result, the carbocatalyst heat-treated at 1000 °C exhibited the highest CO selectivity with Faradaic efficiency up to 70.1%. Moreover, CO/H2 volumetric ratio of syngas could be easily regulated from 3:1 to 1:10 by adjusting applied electrochemical potentials. In this respect, the proposed two-step approach for the carbocatalyst synthesis could be a feasible strategy for addressing the RO membrane waste and producing syngas with suitable composition for a variety of industrial applications. 2022-10-07T05:07:08Z 2022-10-07T05:07:08Z 2022 Journal Article Chen, J., Veksha, A., Fu, X., Zhao, K., Huang, J., Liang, L. & Lisak, G. (2022). Conversion of reverse osmosis membranes into metal-free carbocatalyst for electrochemical syngas production. Journal of Co2 Utilization, 58, 101908-. https://dx.doi.org/10.1016/j.jcou.2022.101908 2212-9820 https://hdl.handle.net/10356/162171 10.1016/j.jcou.2022.101908 2-s2.0-85123863263 58 101908 en Journal of Co2 Utilization © 2022 Elsevier Ltd. All rights reserved. |
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Engineering::Civil engineering Metal-Free Catalysts Pyrolytic Char Nitrogen Doping |
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Engineering::Civil engineering Metal-Free Catalysts Pyrolytic Char Nitrogen Doping Chen, Jie Veksha, Andrei Fu, Xiaoxu Zhao, Ke Huang, Jijiang Liang, Lili Lisak, Grzegorz Conversion of reverse osmosis membranes into metal-free carbocatalyst for electrochemical syngas production |
| description |
Reverse osmosis (RO) membranes are widely employed in water treatment, raising needs for developing spent membrane modules waste management system. This study investigates the upcycling of spent RO membranes through a facile two-step process into functional carbocatalysts that can be successfully applied in electrochemical syngas production with tunable CO/H2 ratios. At first, the spent RO membrane module was pyrolyzed at 600 °C into char. The obtained char demonstrated poor electrochemical performance. Therefore, the char was further subjected to a high temperature (700–1000 °C) doping with melamine. The presence of melamine and the heat treatment were found crucial to convert the char into electrochemically active carbocatalysts. The prepared carbocatalysts showed an enhanced electrochemical reduction capability towards CO2 and H2O producing a mixture of CO and H2. The higher heat treatment temperature of the char increased the carbonization degree and the relative content of graphitic N groups. As a result, the carbocatalyst heat-treated at 1000 °C exhibited the highest CO selectivity with Faradaic efficiency up to 70.1%. Moreover, CO/H2 volumetric ratio of syngas could be easily regulated from 3:1 to 1:10 by adjusting applied electrochemical potentials. In this respect, the proposed two-step approach for the carbocatalyst synthesis could be a feasible strategy for addressing the RO membrane waste and producing syngas with suitable composition for a variety of industrial applications. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Chen, Jie Veksha, Andrei Fu, Xiaoxu Zhao, Ke Huang, Jijiang Liang, Lili Lisak, Grzegorz |
| format |
Article |
| author |
Chen, Jie Veksha, Andrei Fu, Xiaoxu Zhao, Ke Huang, Jijiang Liang, Lili Lisak, Grzegorz |
| author_sort |
Chen, Jie |
| title |
Conversion of reverse osmosis membranes into metal-free carbocatalyst for electrochemical syngas production |
| title_short |
Conversion of reverse osmosis membranes into metal-free carbocatalyst for electrochemical syngas production |
| title_full |
Conversion of reverse osmosis membranes into metal-free carbocatalyst for electrochemical syngas production |
| title_fullStr |
Conversion of reverse osmosis membranes into metal-free carbocatalyst for electrochemical syngas production |
| title_full_unstemmed |
Conversion of reverse osmosis membranes into metal-free carbocatalyst for electrochemical syngas production |
| title_sort |
conversion of reverse osmosis membranes into metal-free carbocatalyst for electrochemical syngas production |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162171 |
| _version_ |
1746219683816669184 |