Enhanced O2/N2 separation of mixed-matrix membrane filled with pluronic-compatibilized cobalt phthalocyanine particles
Membrane-based air separation (O2/N2) is of great importance owing to its energy efficiency as compared to conventional processes. Currently, dense polymeric membranes serve as the main pillar of industrial processes used for the generation of O2- and N2-enriched gas. However, conventional polymeric...
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sg-ntu-dr.10356-1462732023-03-05T16:29:12Z Enhanced O2/N2 separation of mixed-matrix membrane filled with pluronic-compatibilized cobalt phthalocyanine particles Samarasinghe, Samarasinghe Arachchige Sulashi Chathushka Chuah, Chong Yang Karahan, Huseyin Enis Sethunga, Godakooru Sethunga Mudiyanselage Dilhara Prebhashwari Bae, Tae-Hyun Interdisciplinary Graduate School (IGS) School of Chemical and Biomedical Engineering Singapore Membrane Technology Centre Nanyang Environment and Water Research Institute Engineering::Chemical engineering O2/N2 Separation Matrimid Membrane-based air separation (O2/N2) is of great importance owing to its energy efficiency as compared to conventional processes. Currently, dense polymeric membranes serve as the main pillar of industrial processes used for the generation of O2- and N2-enriched gas. However, conventional polymeric membranes often fail to meet the selectivity needs owing to the similarity in the effective diameters of O2 and N2 gases. Meanwhile, mixed-matrix membranes (MMMs) are convenient to produce high-performance membranes while keeping the advantages of polymeric materials. Here, we propose a novel MMM for O2/N2 separation, which is composed of Matrimid® 5218 (Matrimid) as the matrix, cobalt(II) phthalocyanine microparticles (CoPCMPs) as the filler, and Pluronic® F-127 (Pluronic) as the compatibilizer. By the incorporation of CoPCMPs to Matrimid, without Pluronic, interfacial defects were formed. Pluronic-treated CoPCMPs, on the other hand, enhanced O2 permeability and O2/N2 selectivity by 64% and 34%, respectively. We explain the enhancement achieved with the increase of both O2 diffusivity and O2/N2 solubility selectivity. Ministry of the Environment and Water Resources National Environmental Agency (NEA) National Research Foundation (NRF) Published version This research is supported by the National Research Foundation, prime Minister’s Office, Singapore,and the National Environment Agency, Ministry of the Environment and Water Resources, Singapore, under theWaste-to-Energy Competitive Research Programme (WT.E CRP 1601 105). T.-H.B. would like to thank KAIST foradditional funding support. 2021-02-04T08:54:04Z 2021-02-04T08:54:04Z 2020 Journal Article Samarasinghe, S. A. S. C., Chuah, C. Y., Karahan, H. E., Sethunga, G. S. M. D. P., & Bae, T.-H. (2020). Enhanced O2/N2 Separation of Mixed-Matrix Membrane Filled with Pluronic-Compatibilized Cobalt Phthalocyanine Particles. Membranes, 10(4), 75-. doi:10.3390/membranes10040075 2077-0375 0000-0002-5687-0326 0000-0002-7753-1024 0000-0003-2361-2029 https://hdl.handle.net/10356/146273 10.3390/membranes10040075 32325765 2-s2.0-85084124945 4 10 en Membranes © 2020 The Authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution(CC BY) license (http://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Chemical engineering O2/N2 Separation Matrimid Samarasinghe, Samarasinghe Arachchige Sulashi Chathushka Chuah, Chong Yang Karahan, Huseyin Enis Sethunga, Godakooru Sethunga Mudiyanselage Dilhara Prebhashwari Bae, Tae-Hyun Enhanced O2/N2 separation of mixed-matrix membrane filled with pluronic-compatibilized cobalt phthalocyanine particles |
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Membrane-based air separation (O2/N2) is of great importance owing to its energy efficiency as compared to conventional processes. Currently, dense polymeric membranes serve as the main pillar of industrial processes used for the generation of O2- and N2-enriched gas. However, conventional polymeric membranes often fail to meet the selectivity needs owing to the similarity in the effective diameters of O2 and N2 gases. Meanwhile, mixed-matrix membranes (MMMs) are convenient to produce high-performance membranes while keeping the advantages of polymeric materials. Here, we propose a novel MMM for O2/N2 separation, which is composed of Matrimid® 5218 (Matrimid) as the matrix, cobalt(II) phthalocyanine microparticles (CoPCMPs) as the filler, and Pluronic® F-127 (Pluronic) as the compatibilizer. By the incorporation of CoPCMPs to Matrimid, without Pluronic, interfacial defects were formed. Pluronic-treated CoPCMPs, on the other hand, enhanced O2 permeability and O2/N2 selectivity by 64% and 34%, respectively. We explain the enhancement achieved with the increase of both O2 diffusivity and O2/N2 solubility selectivity. |
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Interdisciplinary Graduate School (IGS) |
| author_facet |
Interdisciplinary Graduate School (IGS) Samarasinghe, Samarasinghe Arachchige Sulashi Chathushka Chuah, Chong Yang Karahan, Huseyin Enis Sethunga, Godakooru Sethunga Mudiyanselage Dilhara Prebhashwari Bae, Tae-Hyun |
| format |
Article |
| author |
Samarasinghe, Samarasinghe Arachchige Sulashi Chathushka Chuah, Chong Yang Karahan, Huseyin Enis Sethunga, Godakooru Sethunga Mudiyanselage Dilhara Prebhashwari Bae, Tae-Hyun |
| author_sort |
Samarasinghe, Samarasinghe Arachchige Sulashi Chathushka |
| title |
Enhanced O2/N2 separation of mixed-matrix membrane filled with pluronic-compatibilized cobalt phthalocyanine particles |
| title_short |
Enhanced O2/N2 separation of mixed-matrix membrane filled with pluronic-compatibilized cobalt phthalocyanine particles |
| title_full |
Enhanced O2/N2 separation of mixed-matrix membrane filled with pluronic-compatibilized cobalt phthalocyanine particles |
| title_fullStr |
Enhanced O2/N2 separation of mixed-matrix membrane filled with pluronic-compatibilized cobalt phthalocyanine particles |
| title_full_unstemmed |
Enhanced O2/N2 separation of mixed-matrix membrane filled with pluronic-compatibilized cobalt phthalocyanine particles |
| title_sort |
enhanced o2/n2 separation of mixed-matrix membrane filled with pluronic-compatibilized cobalt phthalocyanine particles |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146273 |
| _version_ |
1759857055700615168 |