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http://dx.doi.org/10.9713/kcer.2013.51.2.171

CO₂ Adsorption in Metal-organic Frameworks

Kim, Jun (Department of Chemical Engineering, Inha University)
Kim, Hee-Young (Department of Chemical Engineering, Inha University)
Ahn, Wha-Seung (Department of Chemical Engineering, Inha University)

Publication Information

Korean Chemical Engineering Research / v.51, no.2, 2013 , pp. 171-180 More about this Journal

Abstract

Metal organic frameworks (MOFs) are a class of crystalline organic-inorganic hybrid compounds formed by coordination of metal clusters or ions with organic linkers. MOFs have recently attracted intense research interest due to their permanent porous structures, large surface areas and pore volume, high-dispersed metal species, and potential applications in gas adsorption, separation, and catalysis. $CO_2$ adsorption in MOFs has been investigated in two areas of $CO_2$ storage at high pressures and $CO_2$ adsorption at atmospheric pressure conditions. In this short review, $CO_2$ adsorption/separation results using MOFs conducted in our laboratory was explained in terms of four contributing effects; (1) coordinatively unsaturated open metal sites, (2) functionalization, (3) interpenetration/catenation, and (4) ion-exchange. Zeolitic imidazolate frameworks (ZIFs) and covalent organic frameworks (COFs) were also considered as a candidate material.

Keywords

Metal-organic Frameworks (MOFs); $CO_2$ Adsorption; ZIFs; COFs;

Citations & Related Records

Reference

1	Schlichte, K., Kratzke, T. and Kaskel, S., "Improved Synthesis, Thermal Stability and Catalytic Properties of the Metal-organic Framework Compound $Cu_3(BTC)_2$ ," Micropor. Mesopor. Mater., 73, 81-88(2004). DOI ScienceOn
2	Yang, D. A., Cho, H. Y., Kim, J., Yang, S. T. and Ahn, W. S., " $CO_2$ Capture and Conversion Using Mg-MOF-74 Prepared by a Sonochemical Method," Energy Environ. Sci., 5, 6465-6473 (2012). DOI ScienceOn
3	Chui, S. S. Y., Lo, S. M. F., Charmant, J. P. H., Orpen, A. G. and Williams, I. D., "A Chemically Functionalizable Nanoporous Material $[Cu_3(TMA)_2(H_2O)_3]_n$ ," Science, 283, 1148-1150(1999). DOI ScienceOn
4	Kim, J., Kim, S. H., Yang, S. T. and Ahn, W. S., "Bench-scale Preparation of $Cu_3(BTC)_2$ by Ethanol Reflux: Synthesis Optimization and Adsorption/catalytic Applications," Micropor. Mesopor. Mater., 161, 48-55(2012). DOI ScienceOn
5	Caskey, S. R., Wong-Foy, A. G. and Matzger, A. J., "Dramatic Tuning of Carbon Dioxide Uptake Via Metal Substitution in a Coordination Polymer with Cylindrical Pores," J. Am. Chem. Soc., 130, 10870-10871(2008). DOI ScienceOn
6	Dietzel, P. D. C., Morita, Y., Blom R. and Fjellvag, H., "An in Situ High-temperature Single-crystal Investigation of a Dehydrated Metal-organic Framework Compound and Field-induced Magnetization of One-dimensional Metal-oxygen Chains," Angew. Chem. Int. Ed., 44, 6354-6358(2005). DOI ScienceOn
7	Dietzel, P. D. C., Georgiev, P. A., Eckert, J., Blom, R., Strässle, T. and Unruh, T., "Interaction of Hydrogen with Accessible Metal Sites in the Metal-organic Frameworks $M_2(dhtp)$ (CPO-27-M; M=Ni, Co, Mg)," Chem. Commun., 46, 4962-4964(2010). DOI ScienceOn
8	Liu, J., Wang, Y., Benin, A. I., Jakubczak, P., Willis, R. R. and LeVan, M. D., " $CO_2/H_2O$ Adsorption Equilibrium and Rates on Metal-organic Frameworks: HKUST-1 and Ni/DOBDC," Langmuir, 26, 14301-14307(2010). DOI ScienceOn
9	Hwang, Y. K., Hong, D. Y., Chang, J. S., Jhung, S. H., Seo, Y. K., Kim, J., Vimont, A., Daturi, M., Serre, C. and Férey, G., "Amine Grafting on Coordinatively Unsaturated Metal Centers of MOFs: Consequences for Catalysis and Metal Encapsulation," Angew. Chem. Int. Ed., 47, 4144-4148(2008). DOI ScienceOn
10	Kim, J., Yang, S. T., Choi, S. B., Sim, J., Kim, J. and Ahn, W. S., "Control of Catenation in CuTATB-n Metal-organic Frameworks by Sonochemical Synthesis and Its Effect on $CO_2$ Adsorption," J. Mater. Chem., 21, 3070-3076(2011). DOI ScienceOn
11	Zhang, J. J., Wojtas, L., Larsen, R. W., Eddaoudi, M. and Zaworotko, M. J., "Temperature and Concentration Control Over Interpenetration in a Metal-organic Material," J. Am. Chem. Soc., 131, 17040-17041(2009). DOI ScienceOn
12	Ma, S., Sun, D., Ambrogio, M., Fillinger, J. A., Parkin, S. and Zhou, H. C., "Framework-catenation Isomerism in Metal-organic Frameworks and Its Impact on Hydrogen Uptake," J. Am. Chem. Soc., 129, 1858-1859(2007). DOI ScienceOn
13	Sun, D., Ma, S., Ke, Y., Collins, D. J. and Zhou, H. C., "An Interweaving MOF with High Hydrogen Uptake," J. Am. Chem. Soc., 128, 3896-3897(2006). DOI ScienceOn
14	Liu, B., Yang, Q., Xue, C., Zhong, C., Chen, B. and Smit, B., "Enhanced Adsorption Selectivity of Hydrogen/methane Mixtures in Metalorganic Frameworks with Interpenetration: A Molecular Simulation Study," J. Phys. Chem. C, 112, 9854-9860(2008).
15	Keskin, S. and Sholl, D. S., "Efficient Methods for Screening of Metal Organic Framework Membranes for Gas Separations Using Atomically Detailed Models," Langmuir, 25, 11786-11795 (2009). DOI ScienceOn
16	Liu, Y., Kravtsov, V. C., Larsena, R. and Eddaoudi, M., "Molecular Building Blocks Approach to the Assembly of Zeolite-like Metal-organic Frameworks (ZMOFs) with Extra-large Cavities," Chem. Commun., 1488-1490(2006).
17	Park, K. S., Ni, Z., Cote, A. P., Choi, J. Y., Huang, R., Uribe-Romo, F. J., Chae, H. K., O'Keeffe, M. and Yaghi, O. M., "Exceptional Chemical and Thermal Stability of Zeolitic Imidazolate Frameworks," PNAS, 103, 10186-10191(2006). DOI ScienceOn
18	Chen, C., Kim, J., Yang, D. A. and Ahn, W. S., "Carbon Dioxide Adsorption over Zeolite-like Metal Organic Frameworks (ZMOFs) Having a sod Topology: Structure and Ion-exchange Effect," Chem. Eng. J., 168, 1134-1139(2011). DOI ScienceOn
19	Yang, C., Wang X. P. and Omary, M. A., "Fluorous Metalorganic Frameworks for High-density Gas Adsorption," J. Am. Chem. Soc., 129, 15454-15455(2007). DOI ScienceOn
20	Cho, H. Y., Kim, J., Kim, S. N. and Ahn, W. S., "High yield 1-L Scale Synthesis of ZIF-8 Via a Sonochemical Route," Micropor. Mesopor. Mater., 169, 180-184(2013). DOI ScienceOn
21	Banerjee, R., Phan, A., Wang, B., Knobler, C., Furukawa, C., O'Keeffe, M. and Yaghi, O. M., "High-throughput Synthesis of Zeolitic Imidazolate Frameworks and Application to $CO_2$ Capture," Science, 319, 939-943(2008). DOI ScienceOn
22	Cote, A. P., Benin, A. I., Ockwig, N. W., Matzger, A. J., O'Keeffe, M. and Yaghi, O. M., "Porous, Crystalline, Covalent Organic Frameworks," Science, 310, 1166-1170(2005). DOI ScienceOn
23	Yang, S. T., Kim, J., Cho, H. Y., Kim, S. and Ahn, W. S., "Facile Synthesis of Covalent Organic Frameworks COF-1 and COF-5 by Sonochemical Method," RSC Adv., 2, 10179-10181(2012). DOI ScienceOn
24	Campbell, N. L., Clowes, R., Ritchie L. K. and Cooper, A. I., "Rapid Microwave Synthesis and Purification of Porous Covalent Organic Frameworks," Chem. Mater., 21, 204-206(2009). DOI ScienceOn
25	Uribe-Romo, F. J., Hunt, J. R., Furukawa, H., Klock, C., O'Keeffe, M. and Yaghi, O. M., "A Crystalline Imine-linked 3-D Porous Covalent Organic Framework," J. Am. Chem. Soc., 131, 4570-4571(2009). DOI ScienceOn
26	Wilson, E. J. and Gerard, D., "Carbon Capture and Sequestration: Integrating Technology, Monitoring, Regulation," Wiley, England (2007).
27	Liu, Y., Liu, D., Yang, Q., Zhong C. and Mi, J., "A Comparative Study of Separation Performance of COFs and MOFs for $CH_4/CO_2/H_2$ Mixtures," Ind. Eng. Chem. Res., 49, 2902-2906(2010). DOI ScienceOn
28	Ciferno, J. P., Fout, T. E., Jones, A. P. and Murphy, J. T., "Capturing Carbon from Existing Coal Fired Power Plant," Chem. Eng. Prog., 105, 33-41(2009).
29	Figueroa, J. D., Fout, T., Plasynski, S., McIlvried, H. and Srivastava, R. D., "Advances in $CO_2$ Capture Technology-The US Department of Energy's Carbon Sequestration Program," Int. J. Greenhouse Gas Control, 2, 9-20(2008). DOI ScienceOn
30	ESRL, "ESRL's Global Monitoring Division, Trends in Atmo-spheric Carbon Dioxide," ESRL(2010).
31	Rackley, S. A., "Carbon Capture and Storage," Elsevier(2010).
32	Yamasaki, A., "An Overview of $CO_2$ Mitigation Options for Global Warming-emphasizing $CO_2$ Sequestration Options," J. Chem. Eng. Jpn., 36, 361-375(2003). DOI ScienceOn
33	Yeh, J. T., Resnik, K. P., Rygle, K. and Pennline, H. W., "Semibatch Absorption and Regeneration Studies for $CO_2$ Capture by Aqueous Ammonia," Fuel Process. Technol., 86, 1533-1546(2005). DOI ScienceOn
34	Xu, X., Song, C. S., Andresen, J. M., Miller, B. G. and Scaroni, A. W., "Novel Polyethylenimine Modified Mesoporous Molecular Sieve of MCM-41 Type as High-capacity Adsorbent for $CO_2$ Capture," Energy Fuels, 16, 1463-1469(2002). DOI ScienceOn
35	Yang, S. T., Kim, J. and Ahn, W. S., " $CO_2$ Adsorption Over Ionexchanged Zeolite Beta with Alkali and Alkaline Earth Metal Ions," Micropor. Mesopor. Mater., 135, 90-94(2010). DOI ScienceOn
36	Yang, S. T., Kim, J. Y., Kim, J. and Ahn, W. S., " $CO_2$ Capture over Amine-functionalized MCM-22, MCM-36 and ITQ-2," Fuel, 97, 435-442(2012). DOI ScienceOn
37	Chen, C., Kim, J. and Ahn, W. S., "Efficient Carbon Dioxide Capture over a Nitrogen-rich Carbon Having a Hierarchical Micromesopore Structure," Fuel, 95, 360-364(2012). DOI ScienceOn
38	Youn, H. K., Kim, J., Chandrasekar, G., Jin, H. and Ahn, W. S., "High Pressure Carbon Dioxide Adsorption on Nanoporous Carbons Prepared by Zeolite Y Templating," Mater. Lett., 65, 1772-1774(2011). DOI ScienceOn
39	Chen, C., Yang, S. T., Ahn, W. S. and Ryoo, R., "Amine-impreg- Nated Silica Monolith with a Hierarchical Pore Structure: Enhancement of $CO_2$ Capture Capacity," Chem. Commun., 3627-3629(2009).
40	Kim, S. N., Son, W. J., Choi, J. S. and Ahn, W. S., " $CO_2$ Adsorption Using Amine-functionalized Mesoporous Silica Prepared Via Anionic Surfactant-mediated Synthesis," Micropor. Mesopor. Mater., 115, 497-503(2008). DOI ScienceOn
41	Chen, C., Yang, S. T. and Ahn, W. S., "Calcium Oxide as High Temperature $CO_2$ Sorbent: Effect of Textural Properties," Mater. Lett., 75, 140-142(2012). DOI ScienceOn
42	Chue, K. T., Kim, J. N., Yoo, Y. J., Cho, S. H. and Yang, R. T., "Comparison of Activated Carbon and Zeolite 13X for $CO_2$ Recovery from Flue Gas by Pressure Swing Adsorption," Ind. Eng. Chem. Res., 34, 591-598(1995). DOI ScienceOn
43	Diaz, E., Munoz, E., Vega, A. and Ordonez, S., "Enhancement of the $CO_2$ Retention Capacity of X-zeolites by Na- and Cs-Treatments," Chemosphere, 70, 1375-1382(2008). DOI ScienceOn
44	Eddaoudi, M., Moler, D. B. and Li, H., "Modular Chemistry: Secondary Building Units as a Basis for the Design of Highly Porous and Robust Metal-organic Carboxylate Frameworks," Acc. Chem. Res., 34, 319-330(2001). DOI ScienceOn
45	Tranchemontagne, D. J., Mendoza-Cortes, J. L., O'Keeffe, M. and Yaghi, O. M., "Secondary Building Units, Nets and Bonding in the Chemistry of Metal-organic Frameworks," Chem. Soc. Rev., 38, 1257-1283(2009). DOI ScienceOn
46	Long, J. R. and Yaghi, O. M., "The Pervasive Chemistry of Metalorganic Frameworks," Chem. Soc. Rev., 38, 1213-1214(2009). DOI ScienceOn
47	Rowsell, J. L. C., Spencer, E. C., Eckert, J., Howard, J. A. K. and Yaghi, O. M., "Gas Adsorption Sites in a Large-pore Metalorganic Framework," Science, 309, 1350-1354(2005). DOI ScienceOn
48	Yuan, D., Zhao, D., Sun, D. and Zhou, H. C., "An Isoreticular Series of Metal-organic Frameworks with Dendritic Hexacarboxylate Ligands and Exceptionally High Gas-uptake Capacity," Angew. Chem., Int. Ed., 49, 5357-5361(2010). DOI ScienceOn
49	Li, H. L., Eddaoudi, M., O'Keeffe, M. and Yaghi, O. M., "Design and Synthesis of An Exceptionally Stable and Highly Porous Metal-organic Framework," Nature, 402, 276-279(1999). DOI
50	Zhao, D., Yuan, D. Q., Sun, D. F. and Zhou, H. C., "Stabilization of Metal-organic Frameworks with High Surface Areas by the Incorporation of Mesocavities with Microwindows," J. Am. Chem. Soc., 131, 9186-9188(2009). DOI ScienceOn
51	Wang, Z. Q. and Cohen, S. M., "Postsynthetic Modification of Metal-organic Frameworks". Chem. Soc. Rev., 38, 1315-1329(2009). DOI ScienceOn
52	Li, J. R., Ma, Y., McCarthy, M. C., Sculley, J., Yu, J., Jeong, H. C., Balbuena, P. B. and Zhou, H. C., "Carbon Dioxide Capture-related Gas Adsorption and Separation in Metal-organic Frameworks," Coord. Chem. Rev., 255, 1791-1823(2011). DOI ScienceOn
53	Liu, J., Thallapally, P. K., McGrail, B. P., Brown, D. R. and Liu, J., "Progress in Adsorption-based $CO_2$ Capture by Metal-organic Frameworks," Chem. Soc. Rev., 41, 2308-2322(2012). DOI ScienceOn
54	Li, J. R., Kuppler, R. J. and Zhou, H. C., "Selective Gas Adsorption and Separation in Metal-organic Frameworks," Chem. Soc. Rev., 38, 1477-1504(2009). DOI ScienceOn
55	Eddaoudi, M., Kim, J., Rosi, N. L., Vodak, D. T., Wachter, J., O'Keeffe, M. and Yaghi, O. M., "Systematic Design of Pore Size and Functionality in Isoreticular Metal-organic Frameworks and Application in Methane Storage," Science, 295, 469-472(2002). DOI ScienceOn
56	Rosi, N. L., Eckert, J., Eddaoudi, M., Vodak, D. T., Kim, J., O'Keeffe, M. and Yaghi, O. M., "Hydrogen Storage in Microporous Metal-organic Frameworks," Science, 300, 1127-1129(2003). DOI ScienceOn
57	Friseiae, T., Reid, D. G., Halasz, I., Stein, R. S., Dinnebier, R. E. and Duer, M. J., "Ion- and Liquid-assisted Grinding: Improved Mechanochemical Synthesis of Metal-organic Frameworks Reveals Salt Inclusion and Anion Templating," Angew. Chem. Int. Ed., 49, 712-715(2010). DOI ScienceOn
58	Choi, J. S., Son, W. J., Kim, J. and Ahn, W. S., "Metal-organic Framework MOF-5 Prepared by Microwave Heating: Factors to be Considered," Micropor. Mesopor. Mater., 116, 727-731(2008). DOI ScienceOn
59	Jhung, S. H., Lee, J. H., Yoon, J. W., Serre, C., Ferey, G. and Chang, J. S., "Microwave Synthesis of Chromium Terephthalate MIL-101 and Its Benzene Sorption Ability," Adv. Mater., 19, 121-124(2007). DOI ScienceOn
60	Mueller, U., Schubert, M., Teich, F., Puetter, H., Schierle-Arndt, K. and Pastre, J., "Metal-organic Frameworks-prospective Industrial Applications," J. Mater. Chem., 16, 626-636(2006). DOI ScienceOn
61	Klimakow, M., Klobes, P., Thuunemann, A. F., Rademann, K. and Emmerling, F., "Mechanochemical Synthesis of Metal-organic Frameworks: A Fast and Facile Approach Toward Quantitative Yields and High Specific Surface Areas," Chem. Mater., 22, 5216-5221(2010). DOI ScienceOn
62	Son, W. J. Kim, J., Kim, J. and Ahn, W. S., "Sonochemical Synthesis of MOF-5," Chem. Commun., 6336-6338(2008).
63	Jung, D. W., Yang, D. A., Kim, J., Kim, J. and Ahn, W. S., "Facile Synthesis of MOF-177 by a Sonochemical Method Using 1-methyl- 2-pyrrolidinone as a Solvent," Dalton Trans., 39, 2883-2887(2010). DOI ScienceOn
64	Kim, J., Bhattacharjee, S., Jeong, K. E., Jeong, S. Y. and Ahn, W. S., "Selective Oxidation of Tetralin over a Chromium Terephthalate Metal Organic Framework, MIL-101," Chem. Commun., 3904-3906(2009).
65	Lee, J. Y., Farha, O. K., Roberts, J., Scheidt, K. A., Nguyen, S. B. T. and Hupp, J. T., "Metal-organic Framework Materials as Catalysts," Chem. Soc. Rev., 38, 1450-1459(2009). DOI ScienceOn
66	Yaghi, O. M. and Li, Q., "Reticular Chemistry and Metal-organic Frameworks for Clean Energy," MRS Bull., 34, 682-690(2009). DOI
67	Horcajada, P., Chalati, T., Serre, C., Gillet, B., Sebrie, C., Baati, T., Eubank, J.F., Heurtaux, D., Clayette, P., Kreuz, C., Chang, J. S., Hwang, Y. K., Marsaud, V., Bories, P., Cynober, L., Gil, S., Ferey, G., Couvreur, P. and Gref, R., "Porous Metal-organicframework Nanoscale Carriers as a Potential Platform for Drug Delivery and Imaging," Nat. Mater., 9, 172-178(2010). DOI ScienceOn
68	Achmann, S., Hagen, G., Kita, J., Malkowsky, I. M., Kiener, C. and Moos, R., "Metal-organic Frameworks for Sensing Applications in the Gas Phase," Sensors, 9, 1574-1589(2009). DOI ScienceOn
69	Liu, B., Shioyama, H., Akita, T. and Xu, Q., "Metal-organic Framework as a Template for Porous Carbon Synthesis," J. Am. Chem. Soc., 130, 5390-5391(2008). DOI ScienceOn
70	Murray, L. J., Dinc, M. and Long, J. R., "Hydrogen Storage in Metal-organic Frameworks," Chem. Soc. Rev., 38, 1294-1314(2009). DOI ScienceOn
71	Lee, J. Y., Farha, O. K., Roberts, J., Scheidt, K. A., Nguyen, S. T. and Hupp, J. T., "Metal-organic Framework Materials As Catalysts," Chem. Soc. Rev., 38, 1450-1459(2009). DOI ScienceOn
72	Zou, Y. Q., Abdel-Fattah, A. I., Xu, H. W., Zhao, Y. S. and Hickmott, D. D., "Storage and Separation Applications of Nanoporous Metal-organic Frameworks," Cryst.Eng Comm, 12, 1337-1353(2010). DOI ScienceOn
73	Ferey, G., Serre, C., Devic, T., Maurin, G., Jobic, H., Llewellyn, P. L., Weireld, D. G., Vimont, A., Daturif, M. and Chang, J. S., "Why Hybrid Porous Solids Capture Greenhouse Gases?," Chem. Soc. Rev., 40, 550-562(2011). DOI ScienceOn
74	Millward, A. R. and Yaghi, O. M., "Metal-organic Frameworks with Exceptionally High Capacity for Storage of Carbon Dioxide at Room Temperature," J. Am. Chem. Soc., 127, 17998-1799(2005). DOI ScienceOn
75	Furukawa, H., Ko, N., Go, Y. B., Aratani, N., Choi, S. B., Choi, E., Yazaydin, A. O., Snurr, R. Q., O'Keeffe, M., Kim, J. and Yaghi, O. M., "Ultrahigh Porosity in Metal-organic Frameworks," Science, 329, 424-428(2010). DOI ScienceOn
76	Mu, B., Schoenecker, P. M. and Walton, K. S., "Gas Adsorption Study on Mesoporous Metal-organic Framework UMCM-1," J. Phys. Chem. C, 114, 6464-6471(2010). DOI ScienceOn
77	Bourrelly, S., Llewellyn, P. L., Serre, C., Millange, F., Loiseau, T. and Ferey, G., "Different Adsorption Behaviors of Methane and Carbon Dioxide in the Isotypic Nanoporous Metal Terephthalates MIL-53 and MIL-47," J. Am. Chem. Soc., 127, 13519-13521(2005). DOI ScienceOn
78	Llewellyn, P. L., Bourrelly, S., Serre, C., Vimont, A., Daturi, M. and Hamon, L., "High Uptakes of $CO_2$ and $CH_4$ in Mesoporous Metals Organic Frameworks MIL-100 and MIL-101," Langmuir, 24, 7245-7250(2008). DOI ScienceOn
79	Arstad, B., Fjellvag, H., Kongshaug, K. O., Swang, O. and Blom, R., "Amine Functionalised Metal Organic Frameworks (MOFs) as Adsorbents for Carbon Dioxide," Adsorption, 14, 755-762(2008). DOI ScienceOn
80	Surble, S., Millange, F., Serre, C., Duren, T., Latroche, M., Bourrelly, S., Llewellyn, P. L. and Ferey, G., "Synthesis of MIL-102, a Chromium Carboxylate Metal-organic Framework, with Gas Sorption Analysis," J. Am. Chem. Soc., 128, 14889-14896(2006). DOI ScienceOn
81	Serre, C., Millange, F., Thouvenot, C., Nogues, M., Marsolier, G., Louer, D. and Ferey, G., Very Large Breathing Effect in the First Nanoporous Chromium (III)-based Solids: MIL-53 or $CrIII(OH){\cdot}{\lbrace}O_2C-C_6H_4-CO_2{\rbrace}{\cdot}{\lbrace}HO_2C-C_6H_4-CO_2H{\rbrace}_x\;H_2O$ ," J. Am. Chem. Soc., 124, 13519-13526(2002). DOI ScienceOn
82	Loiseau, T., Serre, C., Huguenard, C., Fink, G., Taulelle, F., Henry, M., Bataille, T. and Ferey, G., "Rationale for the Large Breathing of the Porous Aluminum Terephthalate (MIL-53) Upon Hydration," Chem. Eur. J., 10, 1373-1382(2004). DOI ScienceOn
83	Wu, D., Xu, Q., Liu, D. H. and Zhong, C. L., "Exceptional $CO_2$ Capture Capability and Molecular-level Segregation in a Li-Modified Metal-organic Framework," J. Phys. Chem. C, 114, 16611-16617(2010). DOI ScienceOn
84	Kim, J., Kim, W. Y. and Ahn, W. S., "Amine-functionalized MIL- 53(Al) for $CO_2/N_2$ Separation: Effect of Textural Properties," Fuel, 102, 574-579(2012). DOI ScienceOn
85	Couck, S., Denayer, J. F. M., Baron, G. V., Remy, T., Gascon, J. and Kapteijn, F., "An Amine Functionalized MIL-53 Metal-organic Framework with Large Separation Power for $CO_2$ and $CH_4$ ," J. Am. Chem. Soc., 131, 6326-6327(2009). DOI ScienceOn
86	Liu, B. and Smit, B., "Comparative Molecular Simulation Study of $CO_2/N_2$ and $CH_4/N_2$ Separation in Zeolites and Metal-organic Frameworks," Langmuir, 25, 5918-5926(2009). DOI ScienceOn
87	Chen, Z. X., Xiang, S. C., Arman, H. D., Li, P., Tidrow, S., Zhao, D. Y. and Chen, B. L., "A Microporous Metal-organic Framework with Immobilized -OH Functional Groups Within the Pore Surfaces for Selective Gas Sorption," Eur. J. Inorg. Chem., 2010, 3745-3749(2010). DOI ScienceOn
88	Cavenati, S., Grande, C. A. and Rodrigues, A. E., "Metal Organic Framework Adsorbent for Biogas Upgrading," Ind. Eng. Chem. Res., 47, 6333-6335(2008). DOI ScienceOn
89	Martin-Calvo, A., Garcia-Perez, E., Castillo, J. M. and Calero, S., "Molecular Simulations for Adsorption and Separation of Natural Gas in IRMOF-1 and Cu-BTC Metal-organic Frameworks," Phys. Chem. Chem. Phys., 10, 7085-7091(2008). DOI ScienceOn
90	Bao, Z. B., Yu, L. A., Ren, Q. L., Lu, X. Y. and Deng, S. G., "Adsorption of $CO_2$ and $CH_4$ on a Magnesium-based Metal Organic Framework," J. Colloid Interface Sci., 353, 549-556(2011). DOI ScienceOn
91	Kim, S. N., Yang, S. T., Kim, J., Park, J. E. and Ahn, W. S., "Post-synthesis Functionalization of MIL-101 Using Diethylenetriamine: a Study on Adsorption and Catalysis," CrystEngComm, 14, 4142-4147(2012). DOI ScienceOn
92	Babarao, R. and Jiang, J., "Unprecedentedly High Selective Adsorption of Gas Mixtures in rho-zeolite-like Metal-organic Framework: a Molecular Simulation Study," J. Am. Chem. Soc., 131, 11417-11425(2009). DOI ScienceOn
93	Xu, Q., Liu, D. H., Yang, Q. Y., Zhong, C. L. and Mi, J. G., "Limodified Metal-organic Frameworks for $CO_2/CH_4$ Separation: a Route to Achieving High Adsorption Selectivity," J. Mater. Chem., 20, 706-714(2010). DOI ScienceOn
94	Cho, H. Y., Yang, D. A., Kim, J., Jeong, S. Y. and Ahn, W. S., " $CO_2$ Adsorption and Catalytic Application of Co-MOF-74 Synthesized by Microwave Heating," Catal. Today, 185, 35-40(2012). DOI ScienceOn
95	Huang, Y., Qin, W., Li, Z. and Li, Y., "Enhanced Stability and $CO_2$ Affinity of a UiO-66 Type Metal-organic Framework Decorated with Dimethyl Groups," Dalton Trans., 41, 9283-9285 (2012). DOI ScienceOn
96	Liang, Z., Marshall, M. and Chaffee, A. L., " $CO_2$ Adsorption Based Separation by Metal Organic Framework (Cu-BTC) Versus Zeolite (13X)," Energy Fuels, 23, 2785-2789(2009). DOI
97	Zhao, Z., Li, Z. and Lin, Y. S., "Adsorption and Diffusion of Carbon Dioxide on Metal-organic Framework (MOF-5)," Ind. Eng. Chem. Res., 48, 10015-10020(2009). DOI ScienceOn
98	Martin-Calvo, A., Garcia-Perez, E., Castillo, J. M. and Calero, S., "Molecular Simulations for Adsorption and Separation of Natural Gas in IRMOF-1 and Cu-BTC Metal-organic Frameworks", Phys. Chem. Chem. Phys., 10, 7085-7091(2008). DOI ScienceOn

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CO2 Adsorption in Metal-organic Frameworks 금속유기구조체를 이용한 이산화탄소 흡착 연구

CO₂ Adsorption in Metal-organic Frameworks