A molecular dynamics study into zeolitic imidazolate frameworks-based capacitive deionization electrodes for Mg²⁺ removal and seawater desalination
In this study, molecular dynamics simulations are performed to study the surface interactions between the zeolitic imidazolate frameworks (ZIFs)-based capacitive deionization (CDI) electrodes with seawater and Mg2+ ions. Using the same organic linkers but different metal atoms to construct the elect...
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sg-ntu-dr.10356-1554302022-06-25T20:11:16Z A molecular dynamics study into zeolitic imidazolate frameworks-based capacitive deionization electrodes for Mg²⁺ removal and seawater desalination Hong, Terence Zhi Xiang Dahanayaka, Madhavi Liu, Bo Law, Adrian Wing-Keung Zhou, Kun Interdisciplinary Graduate School (IGS) School of Chemical and Biomedical Engineering School of Civil and Environmental Engineering School of Mechanical and Aerospace Engineering 2022 6th International Conference on Green Energy and Applications (ICGEA) Nanyang Environment and Water Research Institute Environmental Process Modelling Centre Engineering::Environmental engineering::Water treatment Molecular Dynamics Simulation Capacitive Deionization In this study, molecular dynamics simulations are performed to study the surface interactions between the zeolitic imidazolate frameworks (ZIFs)-based capacitive deionization (CDI) electrodes with seawater and Mg2+ ions. Using the same organic linkers but different metal atoms to construct the electrodes, the CDI performance of the said electrodes is tested in terms of ion rejection and water flux. The effects of metal atoms on the ZIF interactions with the seawater and Mg2+ are studied and explained using ion distribution, water velocity, and radial distribution function (RDF). The results revealed that the metal and N atoms have a strong affinity for ions, and the maximum ion rejection by the electrode achieved in the presence of Mg2+ is 97.6%. Furthermore, ZIF hydrophilicity is dependent on the metal atoms which have the strongest affinity with water molecules, and this water affinity determines the water flux. Overall, the results proved that metal atoms can influence the ZIF performance. Among the four ZIFs tested, CdIF-1 has the best performance. Nanyang Technological University Submitted/Accepted version The authors acknowledge the financial support provided by Nanyang Environment and Water Research Institute (Core Fund), Nanyang Technological University, Singapore. 2022-06-22T07:45:32Z 2022-06-22T07:45:32Z 2022 Conference Paper Hong, T. Z. X., Dahanayaka, M., Liu, B., Law, A. W. & Zhou, K. (2022). A molecular dynamics study into zeolitic imidazolate frameworks-based capacitive deionization electrodes for Mg²⁺ removal and seawater desalination. 2022 6th International Conference on Green Energy and Applications (ICGEA). https://dx.doi.org/10.1109/ICGEA54406.2022.9792122 https://hdl.handle.net/10356/155430 10.1109/ICGEA54406.2022.9792122 en © 2022 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works. The published version is available at: https://doi.org/10.1109/ICGEA54406.2022.9792122. application/pdf |
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Engineering::Environmental engineering::Water treatment Molecular Dynamics Simulation Capacitive Deionization Hong, Terence Zhi Xiang Dahanayaka, Madhavi Liu, Bo Law, Adrian Wing-Keung Zhou, Kun A molecular dynamics study into zeolitic imidazolate frameworks-based capacitive deionization electrodes for Mg²⁺ removal and seawater desalination |
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In this study, molecular dynamics simulations are performed to study the surface interactions between the zeolitic imidazolate frameworks (ZIFs)-based capacitive deionization (CDI) electrodes with seawater and Mg2+ ions. Using the same organic linkers but different metal atoms to construct the electrodes, the CDI performance of the said electrodes is tested in terms of ion rejection and water flux. The effects of metal atoms on the ZIF interactions with the seawater and Mg2+ are studied and explained using ion distribution, water velocity, and radial distribution function (RDF). The results revealed that the metal and N atoms have a strong affinity for ions, and the maximum ion rejection by the electrode achieved in the presence of Mg2+ is 97.6%. Furthermore, ZIF hydrophilicity is dependent on the metal atoms which have the strongest affinity with water molecules, and this water affinity determines the water flux. Overall, the results proved that metal atoms can influence the ZIF performance. Among the four ZIFs tested, CdIF-1 has the best performance. |
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Interdisciplinary Graduate School (IGS) |
| author_facet |
Interdisciplinary Graduate School (IGS) Hong, Terence Zhi Xiang Dahanayaka, Madhavi Liu, Bo Law, Adrian Wing-Keung Zhou, Kun |
| format |
Conference or Workshop Item |
| author |
Hong, Terence Zhi Xiang Dahanayaka, Madhavi Liu, Bo Law, Adrian Wing-Keung Zhou, Kun |
| author_sort |
Hong, Terence Zhi Xiang |
| title |
A molecular dynamics study into zeolitic imidazolate frameworks-based capacitive deionization electrodes for Mg²⁺ removal and seawater desalination |
| title_short |
A molecular dynamics study into zeolitic imidazolate frameworks-based capacitive deionization electrodes for Mg²⁺ removal and seawater desalination |
| title_full |
A molecular dynamics study into zeolitic imidazolate frameworks-based capacitive deionization electrodes for Mg²⁺ removal and seawater desalination |
| title_fullStr |
A molecular dynamics study into zeolitic imidazolate frameworks-based capacitive deionization electrodes for Mg²⁺ removal and seawater desalination |
| title_full_unstemmed |
A molecular dynamics study into zeolitic imidazolate frameworks-based capacitive deionization electrodes for Mg²⁺ removal and seawater desalination |
| title_sort |
molecular dynamics study into zeolitic imidazolate frameworks-based capacitive deionization electrodes for mg²⁺ removal and seawater desalination |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/155430 |
| _version_ |
1736856356853383168 |