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Thermal treatment induced transition from Zn3(OH)2(BDC)2 (MOF-69c) to Zn4O(BDC)3 (MOF-5)

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dc.contributor.author Ren, Jianwei
dc.contributor.author Rogers, DEC
dc.contributor.author Segakweng, T
dc.contributor.author Langmi, Henrietta W
dc.contributor.author North, Brian C
dc.contributor.author Mathe, Mahlanyane K
dc.contributor.author Bessarabov, D
dc.date.accessioned 2014-05-13T07:24:26Z
dc.date.available 2014-05-13T07:24:26Z
dc.date.issued 2013
dc.identifier.citation Ren, J, Rogers, D.E.C, Segakweng, T, Langmi, H.W, North, B.C, Mathe, M and Bessarabov, D. 2013. Thermal treatment induced transition from Zn3(OH)2(BDC)2 (MOF-69c) to Zn4O(BDC)3 (MOF-5). International Journal of Materials Research, vol. 105(1), pp 89-93 en_US
dc.identifier.issn 1862-5282
dc.identifier.uri http://www.hanser-elibrary.com/doi/abs/10.3139/146.110994
dc.identifier.uri http://hdl.handle.net/10204/7400
dc.identifier.uri https://doi.org/10.3139/146.110994
dc.description Copyright: 2013 Carl Hanser Verlag. This is an ABSTRACT ONLY. The definitive version is published in International Journal of Materials Research, vol. 105(1), pp 89-93 en_US
dc.description.abstract A simple thermal treatment induced transition from Zn3(OH)2(BDC)2 (MOF-69c) to Zn4O(BDC)3 (MOF-5) is reported. Phase crystallinity, pore characteristics and hydrogen storage capacities of the resulting crystals were investigated. It is shown that the structural transition from Zn3(OH)2(BDC)2 (MOF-69c) to Zn4O(BDC)3 (MOF-5) could be induced by simply employing the optimal thermal treatment conditions of 200 °C for 48 h in open air. The resultant relatively lower specific surface area of MOF-5 crystals compared to MOF-69c was in agreement with the increased pore diameter and decreased hydrogen storage capacity at 1 bar and 77 K. en_US
dc.language.iso en en_US
dc.publisher Carl Hanser Verlag en_US
dc.relation.ispartofseries Workflow;12079
dc.subject Structural transition en_US
dc.subject Hydrogen adsorption en_US
dc.subject MOF-69c en_US
dc.subject MOF-5 en_US
dc.title Thermal treatment induced transition from Zn3(OH)2(BDC)2 (MOF-69c) to Zn4O(BDC)3 (MOF-5) en_US
dc.type Article en_US
dc.identifier.apacitation Ren, J., Rogers, D., Segakweng, T., Langmi, H. W., North, B. C., Mathe, M. K., & Bessarabov, D. (2013). Thermal treatment induced transition from Zn3(OH)2(BDC)2 (MOF-69c) to Zn4O(BDC)3 (MOF-5). http://hdl.handle.net/10204/7400 en_ZA
dc.identifier.chicagocitation Ren, Jianwei, DEC Rogers, T Segakweng, Henrietta W Langmi, Brian C North, Mahlanyane K Mathe, and D Bessarabov "Thermal treatment induced transition from Zn3(OH)2(BDC)2 (MOF-69c) to Zn4O(BDC)3 (MOF-5)." (2013) http://hdl.handle.net/10204/7400 en_ZA
dc.identifier.vancouvercitation Ren J, Rogers D, Segakweng T, Langmi HW, North BC, Mathe MK, et al. Thermal treatment induced transition from Zn3(OH)2(BDC)2 (MOF-69c) to Zn4O(BDC)3 (MOF-5). 2013; http://hdl.handle.net/10204/7400. en_ZA
dc.identifier.ris TY - Article AU - Ren, Jianwei AU - Rogers, DEC AU - Segakweng, T AU - Langmi, Henrietta W AU - North, Brian C AU - Mathe, Mahlanyane K AU - Bessarabov, D AB - A simple thermal treatment induced transition from Zn3(OH)2(BDC)2 (MOF-69c) to Zn4O(BDC)3 (MOF-5) is reported. Phase crystallinity, pore characteristics and hydrogen storage capacities of the resulting crystals were investigated. It is shown that the structural transition from Zn3(OH)2(BDC)2 (MOF-69c) to Zn4O(BDC)3 (MOF-5) could be induced by simply employing the optimal thermal treatment conditions of 200 °C for 48 h in open air. The resultant relatively lower specific surface area of MOF-5 crystals compared to MOF-69c was in agreement with the increased pore diameter and decreased hydrogen storage capacity at 1 bar and 77 K. DA - 2013 DB - ResearchSpace DP - CSIR KW - Structural transition KW - Hydrogen adsorption KW - MOF-69c KW - MOF-5 LK - https://researchspace.csir.co.za PY - 2013 SM - 1862-5282 T1 - Thermal treatment induced transition from Zn3(OH)2(BDC)2 (MOF-69c) to Zn4O(BDC)3 (MOF-5) TI - Thermal treatment induced transition from Zn3(OH)2(BDC)2 (MOF-69c) to Zn4O(BDC)3 (MOF-5) UR - http://hdl.handle.net/10204/7400 ER - en_ZA


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