题名

金屬有機框架/碳分子篩膜對溫室氣體分離之研究

并列篇名

Investigation of Metal Organic Frame/Carbon Molecular Sieve Composite Membrane for Greenhouse Gas Separation

作者

曾韋斌(WEI-BIN TSENG);王麒維(CHI-WEI WANG);葉啟輝(CHI-HUI YEH);饒瑞曄(JUI-YEH RAU);姚志宏(CHI-HONG YAO);吳文傑(WEN-CHIEH WU)

关键词

薄膜分離技術 ; 沸石咪唑骨架(ZIFs) ; 碳分子篩膜(CMS) ; 聚醚醯亞胺(PEI) ; membrane separation technology ; zeolite imidazole frameworks ; carbon molecular sieve membrane ; polyetherimide

期刊名称

科學與工程技術期刊

卷期/出版年月

19卷2期(2023 / 09 / 01)

页次

103 - 112

内容语文

繁體中文;英文
中文摘要

本文研究探討了溫室效應和全球暖化等環境問題,特別是氣體分離技術在解決溫室氣體排放問題中的潛力。薄膜分離技術是一種有效的氣體分離方法,其中碳膜作為無機薄膜材質之一,展現了優越的氣體分離性能。碳膜可分為分子篩選型和選擇性吸附型,分別適用於不同氣體分子的分離。此外研究表明,金屬有機骨架(MOFs)中的沸石咪唑骨架(ZIFs)也是潛在的多孔填料,對氣體分離等應用領域具有潛力。提出了將聚醚醯亞胺(PEI)、ZIFs和碳分子篩膜(CMS)等材料結合,以提高薄膜性能的複合技術。對ZIF-67-Membrane進行不同堆積時間的實驗,並通過PEI修飾來改進其分離性能。經過修飾和碳化後的薄膜表現出增強的氣體吸附能力和選擇性。這些結果顯示,沉積2天的ZIF-67/CMS-Membrane氣體對氮氣具有良好的擴散選擇率,H_2/CH_4、N_2/CO_2、N_2/CO、N_2/CH_4,其值分別為3.54、1.52、2.04、6.80,對氮氣具有一定的分離效果。使用ZIF-67作為無機表面修飾並配合後合成有利於形成薄、交聯良好且穩定的ZIF-67-Membrane,具有潛在應用價值。
英文摘要

This study explores environmental issues such as greenhouse effects and global warming, focusing on the potential of gas separation technology in addressing greenhouse gas emissions. Membrane separation techniques have proven to be effective for gas separation, and among the inorganic membrane materials, carbon membranes have demonstrated superior gas separation performance. Carbon membranes can be categorized into molecular sieve and selective adsorption types, each suitable for separating different gas molecules. Additionally, research indicates that zeolitic imidazolate frameworks (ZIFs) within the metal-organic framework (MOFs) class hold promise as potential porous fillers for gas separation applications. A composite technique is proposed by combining materials such as polyetherimide (PEI), ZIFs, and carbon molecular sieve (CMS) to enhance the performance of membranes. The experimental investigation focuses on ZIF-67-Membrane with varying deposition times and subsequent PEI modification to improve its separation capabilities. The modified and carbonized membranes exhibit enhanced gas adsorption capacity and selectivity. The results show that the ZIF-67/CMS-Membrane with a deposition time of 2 days exhibits good diffusion selectivity for nitrogen gas, with H_2/CH_4, N_2/CO_2, N_2/CO, and N_2/CH_4 values of 3.54, 1.52, 2.04, and 6.80, respectively, indicating a certain level of nitrogen gas separation performance. Using ZIF-67 as an inorganic surface modifier and employing post-synthesis methods contribute to forming a thin, well-crosslinked, and stable ZIF-67-Membrane, suggesting its potential for practical gas separation applications.
主题分类 醫藥衛生 > 醫藥總論
醫藥衛生 > 基礎醫學
工程學 > 工程學綜合
社會科學 > 社會科學綜合
社會科學 > 心理學
参考文献
  1. Bai, Y.,Dong, L.,Zhang, C.,Gu, J.,Sun, Y.,Zhang, L.,Chen, H.(2013).ZIF-8 filled polydimethylsiloxane membranes for pervaporative separation of n-butanol from aqueous solution.Separation Science and Technology,48(17),2531-2539.
  2. Banerjee, R.,Phan, A.,Wang, B.,Knobler, C.,Furukawa, H.,O'Keeffe, M.,Yaghi, O. M.(2008).High-throughput synthesis of zeolitic imidazolate frameworks and application to CO2 capture.Science,319,939-943.
  3. Bogdanov, B.,Georgiev, D.,Angelova, K.,Yaneva, K.(2009).Natural zeolites: clinoptilolite.Review, Natural&Mathematical science,4,6-11.
  4. Centeno, T. A.,Fuertes, A. B.(1999).Supported carbon molecular sieve membranes based on a phenolic resin.Journal of membrane science,160(2),201-211.
  5. Cravillon, J.,Münzer, S.,Lohmeier, S. J.,Feldhoff, A.,Huber, K.,Wiebcke, M.(2009).Rapid room-temperature synthesis and characterization of nanocrystals of a prototypical zeolitic imidazolate framework.Chemistry of Materials,21(8),1410-1412.
  6. Fonseca, J.,Gong, T.,Jiao, L.,Jiang, H. L.(2021).Metal–organic frameworks (MOFs) beyond crystallinity: amorphous MOFs, MOF liquids and MOF glasses.Journal of Materials Chemistry A,9,10562-10611.
  7. Hayashi, H.,Côté, A. P.,Furukawa, H.,O’Keeffe, M.,Yaghi, O. M.(2007).Zeolite A imidazolate frameworks.Nature materials,6(7),501-506.
  8. Hu, C.,Huang, Y. C.,Chang, A. L.,Nomura, M.(2019).Amine functionalized ZIF-8 as a visible-light-driven photocatalyst for Cr (VI) reduction.Journal of colloid and interface science,553,372-381.
  9. Itta, A. K.,Tseng, H. H.(2011).Hydrogen separation performance of CMS membranes derived from the imide-functional group of two similar types of precursors.international journal of hydrogen energy,36(14),8645-8657.
  10. Jeon, M. Y.,Kim, D.,Kumar, P.,Lee, P. S.,Rangnekar, N.,Bai, P.,Shete, M.,Elyassi, B.,Lee, H. S.,Narasimharao, K.(2017).Ultra-selective high-flux membranes from directly synthesized zeolite nanosheets.Nature,543(7647),690-694.
  11. Khan, M. Y.,Khan, A.,Adewole, J. K.,Naim, M.,Basha, S. I.,Aziz, M. A.(2020).Biomass derived carboxylated carbon nanosheets blended polyetherimide membranes for enhanced CO2/CH4 separation.Journal of Natural Gas Science and Engineering,75,103156.
  12. Kim, Y. K.,Park, H. B.,Lee, Y. M.(2005).Preparation and characterization of carbon molecular sieve membranes derived from BTDA–ODA polyimide and their gas separation properties.Journal of membrane science,255(1-2),265-273.
  13. Lagorsse, S.,Magalhães, F.,Mendes, A.(2008).Aging study of carbon molecular sieve membranes.Journal of Membrane Science,310(1-2),494-502.
  14. Lee, J. H.,Kwon, H. T.,Bae, S.,Kim, J.,Kim, J. H.(2018).Mixed-matrix membranes containing nanocage-like hollow ZIF-8 polyhedral nanocrystals in graft copolymers for carbon dioxide/methane separation.Separation and Purification Technology,207,427-434.
  15. Li, J.,Guo, S.,Xu, Z.,Li, J.,Pan, Z.,Du, Z.,Cheng, F.(2019).Preparation of omniphobic PVDF membranes with silica nanoparticles for treating coking wastewater using direct contact membrane distillation: Electrostatic adsorption vs. chemical bonding.Journal of membrane science,574,349-357.
  16. Li, R.,Che, R.,Liu, Q.,Su, S.,Li, Z.,Zhang, H.,Liu, J.,Liu, L.,Wang, J.(2017).Hierarchically structured layered-double-hydroxides derived by ZIF-67 for uranium recovery from simulated seawater.Journal of hazardous materials,338,167-176.
  17. Li, Y.,Fu, Y.,Liu, W.,Song, Y.,Wang, L.(2019).Hollow Co-Co3O4@ CNTs derived from ZIF-67 for lithium ion batteries.Journal of Alloys and Compounds,784,439-446.
  18. Liu, S.,Kang, Z.,Fan, L.,Li, X.,Zhang, B.,Feng, Y.,Liu, H.,Fan, W.,Wang, R.,Sun, D.(2023).Carbon molecular sieve membranes derived from hydrogen-bonded organic frameworks for CO2/CH4 separation.Journal of Membrane Science,678,121674.
  19. Liu, X. Y.,Huang, M.,Ma, H. L.,Zhang, Z. Q.,Gao, J. M.,Zhu, Y. L.,Han, X. J.,Guo, X. Y.(2010).Preparation of a carbon-based solid acid catalyst by sulfonating activated carbon in a chemical reduction process.Molecules,15(10),7188-7196.
  20. Meng, J.,Liu, X.,Niu, C.,Pang, Q.,Li, J.,Liu, F.,Liu, Z.,Mai, L.(2020).Advances in metal–organic framework coatings: versatile synthesis and broad applications.Chemical Society Reviews,49,3142-3186.
  21. Nakagawa, T.,Nishimura, T.,Higuchi, A.(2002).Morphology and gas permeability in copolyimides containing polydimethylsiloxane block.Journal of Membrane Science,206(1-2),149-163.
  22. Ogieglo, W.,Puspasari, T.,Hota, M. K.,Wehbe, N.,Alshareef, H. N.,Pinnau, I.(2020).Nanohybrid thin-film composite carbon molecular sieve membranes.Materials Today Nano,9,100065.
  23. Pan, Z.,Song, C.,Li, L.,Wang, H.,Pan, Y.,Wang, C.,Li, J.,Wang, T.,Feng, X.(2019).Membrane technology coupled with electrochemical advanced oxidation processes for organic wastewater treatment: Recent advances and future prospects.Chemical Engineering Journal,376,120909.
  24. Phuoc, N. M.,Jung, E.,Tran, N. A. T.,Lee, Y. W.,Yoo, C. Y.,Kang, B.-G.,Cho, Y.(2020).Enhanced desalination performance of capacitive deionization using nanoporous carbon derived from ZIF-67 metal organic frameworks and CNTs.Nanomaterials,10(11),2091.
  25. Phuoc, N. M.,Tran, N. A. T.,Khoi, T. M.,Jung, H. B.,Ahn, W.,Jung, E.,Yoo, C. Y.,Kang, H. S.,Cho, Y.(2021).ZIF-67 metal-organic frameworks and CNTs-derived nanoporous carbon structures as novel electrodes for flow-electrode capacitive deionization.Separation and Purification Technology,277,119466.
  26. Pickel, T.(2019).Emory University.
  27. Qiu, W.,Zhang, K.,Li, F.S.,Zhang, K.,Koros, W.J.(2014).Gas separation performance of carbon molecular sieve membranes based on 6FDA‐mPDA/DABA (3: 2) polyimide.ChemSusChem,7(4),1186-1194.
  28. Shin, J.H.,Yu, H.J.,An, H.,Lee, A.S.,Hwang, S.S.,Lee, S.Y.,Lee, J.S.(2019).Rigid double-stranded siloxane-induced high-flux carbon molecular sieve hollow fiber membranes for CO2/CH4 separation.Journal of Membrane Science,570,504-512.
  29. Sirkar, K. K.,Shanbhag, P. V.,Kovvali, A. S.(1999).Membrane in a reactor: a functional perspective.Industrial & engineering chemistry research,38(10),3715-3737.
  30. Soleimani, H.,Baig, M. K.,Yahya, N.,Khodapanah, L.,Sabet, M.,Demiral, B. M.,Burda, M.(2018).Impact of carbon nanotubes based nanofluid on oil recovery efficiency using core flooding.Results in Physics,9,39-48.
  31. Soleimani, R.,Dehaghani, A. H. Saeedi(2023).A theoretical probe into the separation of CO2/CH4/N2 mixtures with polysulfone/polydimethylsiloxane–nano zinc oxide MMM.Scientific Reports,13,9543.
  32. Tew, G. N.,Scott, R. W.,Klein, M. L.,DeGrado, W. F.(2010).De novo design of antimicrobial polymers, foldamers, and small molecules: from discovery to practical applications.Accounts of chemical research,43(1),30-39.
  33. Tian, Y. Q.,Cai, C. X.,Ji, Y.,You, X. Z.,Peng, S. M.,Lee, G. H.(2002).[Co5 (im) 10⋅ 2 MB]∞: A metal‐organic open‐framework with zeolite‐like topology.Angewandte Chemie,114(8),1442-1444.
  34. Tin, P. S.,Chung, T. S.,Liu, Y.,Wang, R.(2004).Separation of CO2/CH4 through carbon molecular sieve membranes derived from P84 polyimide.Carbon,42(15),3123-3131.
  35. Tseng, H. H.,Itta, A. K.(2012).Modification of carbon molecular sieve membrane structure by self-assisted deposition carbon segment for gas separation.Journal of membrane science,389,223-233.
  36. Tseng, H. H.,Zhuang, G. L.,Lin, M. D.,Chang, S. H.,Wey, M. Y.(2015).The influence of matrix structure and thermal annealing-hydrophobic layer on the performance and durability of carbon molecular sieving membrane during physical aging.Journal of Membrane Science,495,294-304.
  37. Valappil, R. S. K.,Ghasem, N.,Al-Marzouqi, M.(2021).Current and future trends in polymer membrane-based gas separation technology: A comprehensive review.Journal of Industrial and Engineering Chemistry,98,103-129.
  38. Wang, B.,Côté, A. P.,Furukawa, H.,O’Keeffe, M.,Yaghi, O. M.(2008).Colossal cages in zeolitic imidazolate frameworks as selective carbon dioxide reservoirs.Nature,453,207-211.
  39. Wang, Y.,Qiao, M.,Mamat, X.(2021).Nitrogen-doped macro-meso-micro hierarchical ordered porous carbon derived from ZIF-8 for boosting supercapacitor performance.Applied Surface Science,540(par1),148352.
  40. Wu, X.,Liu, W.,Wu, H.,Zong, X.,Yang, L.,Wu, Y.,Ren, Y.,Shi, C.,Wang, S.,Jiang, Z.(2018).Nanoporous ZIF-67 embedded polymers of intrinsic microporosity membranes with enhanced gas separation performance.Journal of Membrane Science,548,309-318.
  41. Xue, F.,Zhang, X.,Niu, Y.,Yi, C.,Ju, S.,Xing, W.(2020).Preparation and evaluation of α-Al2O3 supported lithium ion sieve membranes for Li=extraction.Chinese Journal of Chemical Engineering,28(9),2312-2318.
  42. Yang, C.,Li, X. M.,Gilron, J.,Kong, D. f.,Yin, Y.,Oren, Y.,Linder, C.,He, T.(2014).CF4 plasma-modified superhydrophobic PVDF membranes for direct contact membrane distillation.Journal of Membrane Science,456,155-161.
  43. Yin, H.,Khosravi, A.,O’Connor, L.,Tagaban, A. Q.,Wilson, L.,Houck, B.,Liu, Q.,Lind, M. L.(2017).Effect of ZIF-71 particle size on free-standing ZIF-71/PDMS composite membrane performances for ethanol and 1-butanol removal from water through pervaporation.Industrial & Engineering Chemistry Research,56(32),9167-9176.
  44. Yin, L.,Li, D.,Guo, H.,Wang, S.,Zhang, T.,Liu, Y.,Gai, F.,Zhao, X.(2022).High-performance carbonized ZIF-8-doped hybrid carbon molecular sieve membrane for CO2/N2 separation.Journal of Membrane Science,655(6),120610.
  45. Zeng, Y.,Zou, R.,Zhao, Y.(2016).Covalent organic frameworks for CO2 capture.Advanced Materials,28(15),2855-2873.
  46. Zhang, Z.,Xian, S.,Xia, Q.,Wang, H.,Li, Z.,Li, J.(2013).Enhancement of CO2 adsorption and CO2/N2 selectivity on ZIF‐8 via postsynthetic modification.AIChE Journal,59(6),2195-2206.
  47. Zhou, Z.,Wu, C.,Zhang, B.(2020).ZIF-67 membranes synthesized on α-Al2O3-plate-supported cobalt nanosheets with amine modification for enhanced H2/CO2 permselectivity.Industrial & Engineering Chemistry Research,59,3182-3188.
print cancel