Asma R Tariq Asma R Tariq, Misbah Sultan Misbah Sultan, Tariq Mahmud Tariq Mahmud, Ghayoor Abbas Chotana Ghayoor Abbas Chotana, Muhammad Rizwan Dilshad Muhammad Rizwan Dilshad, Asim Laeeq Khan Asim Laeeq Khan, Muhammad Imran Muhammad Imran, Saadia Rashid Tariq and Prof Dr Klaus M ller Buschbaum Saadia Rashid Tariq and Prof Dr Klaus M ller Busch
{"title":"用1D [Pr(BTC)(H2O)6] MOF作为填料制备Matrimidand#174基于嗯","authors":"Asma R Tariq Asma R Tariq, Misbah Sultan Misbah Sultan, Tariq Mahmud Tariq Mahmud, Ghayoor Abbas Chotana Ghayoor Abbas Chotana, Muhammad Rizwan Dilshad Muhammad Rizwan Dilshad, Asim Laeeq Khan Asim Laeeq Khan, Muhammad Imran Muhammad Imran, Saadia Rashid Tariq and Prof Dr Klaus M ller Buschbaum Saadia Rashid Tariq and Prof Dr Klaus M ller Busch","doi":"10.52568/001245/jcsp/45.03.2023","DOIUrl":null,"url":null,"abstract":"Selection of good filler-polymer pair results in improved gas separation performances. Present study deals with fabrication of Matrimid based hybrid or mixed matrix membranes (MMMs) by using three weight loadings (10, 20 and 30 wt. %) of 1D rod shaped nanoporous [Pr(BTC)(H2O)6] metal organic framework (MOF). The fourier transform infrared (FTIR) spectrophotometric analysis indicated the bonding of lanthanide metal ion with the linker and thus formation of the MOF, and further revealed that the structure of MOF remained intact after incorporation into the polymer matrix. Powder X-ray (PXRD) analysis revealed purity and crystallinity of the MOF while the PXRD results for the MMMs indicated that crystallinity of the MOF remained unaffected after fabrication of the MMMs. The Scanning electron microscopy (SEM) results gave an indication of the formation of the MOF in same morphology as it is previously reported. Additionally, nice distribution and well adherence of the additive particles throughout the polymer matrix was observed while the interfacial voids were visibly absent. The MOF and the MMMs were thermally stable and crystallinity of MOF particles remained intact after dispersion into polymer matrix. The Brunauer Emmett Teller (BET) surface area of the MOF was also obtained that indicated its permanent porosity. The prepared MMMs were flexible enough to handle for all analysis. These findings led to conclude that a proper polymer-filler pair was made that produced defect free MMMs. The prepared MMMs can be evaluated in future for their performance towards separation of different gases after modification of the pore of the filler","PeriodicalId":17253,"journal":{"name":"Journal of the chemical society of pakistan","volume":null,"pages":null},"PeriodicalIF":0.6000,"publicationDate":"2023-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Use of 1D [Pr(BTC)(H2O)6] MOF as a Filler for Fabrication of Matrimidand#174; based MMMs\",\"authors\":\"Asma R Tariq Asma R Tariq, Misbah Sultan Misbah Sultan, Tariq Mahmud Tariq Mahmud, Ghayoor Abbas Chotana Ghayoor Abbas Chotana, Muhammad Rizwan Dilshad Muhammad Rizwan Dilshad, Asim Laeeq Khan Asim Laeeq Khan, Muhammad Imran Muhammad Imran, Saadia Rashid Tariq and Prof Dr Klaus M ller Buschbaum Saadia Rashid Tariq and Prof Dr Klaus M ller Busch\",\"doi\":\"10.52568/001245/jcsp/45.03.2023\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Selection of good filler-polymer pair results in improved gas separation performances. Present study deals with fabrication of Matrimid based hybrid or mixed matrix membranes (MMMs) by using three weight loadings (10, 20 and 30 wt. %) of 1D rod shaped nanoporous [Pr(BTC)(H2O)6] metal organic framework (MOF). The fourier transform infrared (FTIR) spectrophotometric analysis indicated the bonding of lanthanide metal ion with the linker and thus formation of the MOF, and further revealed that the structure of MOF remained intact after incorporation into the polymer matrix. Powder X-ray (PXRD) analysis revealed purity and crystallinity of the MOF while the PXRD results for the MMMs indicated that crystallinity of the MOF remained unaffected after fabrication of the MMMs. The Scanning electron microscopy (SEM) results gave an indication of the formation of the MOF in same morphology as it is previously reported. Additionally, nice distribution and well adherence of the additive particles throughout the polymer matrix was observed while the interfacial voids were visibly absent. The MOF and the MMMs were thermally stable and crystallinity of MOF particles remained intact after dispersion into polymer matrix. The Brunauer Emmett Teller (BET) surface area of the MOF was also obtained that indicated its permanent porosity. The prepared MMMs were flexible enough to handle for all analysis. 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Use of 1D [Pr(BTC)(H2O)6] MOF as a Filler for Fabrication of Matrimidand#174; based MMMs
Selection of good filler-polymer pair results in improved gas separation performances. Present study deals with fabrication of Matrimid based hybrid or mixed matrix membranes (MMMs) by using three weight loadings (10, 20 and 30 wt. %) of 1D rod shaped nanoporous [Pr(BTC)(H2O)6] metal organic framework (MOF). The fourier transform infrared (FTIR) spectrophotometric analysis indicated the bonding of lanthanide metal ion with the linker and thus formation of the MOF, and further revealed that the structure of MOF remained intact after incorporation into the polymer matrix. Powder X-ray (PXRD) analysis revealed purity and crystallinity of the MOF while the PXRD results for the MMMs indicated that crystallinity of the MOF remained unaffected after fabrication of the MMMs. The Scanning electron microscopy (SEM) results gave an indication of the formation of the MOF in same morphology as it is previously reported. Additionally, nice distribution and well adherence of the additive particles throughout the polymer matrix was observed while the interfacial voids were visibly absent. The MOF and the MMMs were thermally stable and crystallinity of MOF particles remained intact after dispersion into polymer matrix. The Brunauer Emmett Teller (BET) surface area of the MOF was also obtained that indicated its permanent porosity. The prepared MMMs were flexible enough to handle for all analysis. These findings led to conclude that a proper polymer-filler pair was made that produced defect free MMMs. The prepared MMMs can be evaluated in future for their performance towards separation of different gases after modification of the pore of the filler
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This journal covers different research areas in the field of Chemistry. These include; Analytical Chemistry, Applied Chemistry, Biochemistry, Environmental Chemistry, Industrial Chemistry, Inorganic Chemistry, Organic Chemistry and Physical Chemistry. The journal publishes full length articles and Reviews from researchers in academia in addition to featuring comments. Chemical Research presents short, concise and critical articles offering easy-to-read overviews of basic research and applications in all areas of chemistry.
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