Research progress on preparation of IRMOFs material and its application of CO2 capture

Expand
  • Faculty of Chemical Engineering,Kunming University of Science and Technology, Kunming 650500

Received date: 2019-05-08

  Revised date: 2020-05-04

  Online published: 2020-10-20

Abstract

With the massive burning of fossil fuels lead to excessive global CO2 emissions and has a serious impact on the global climate.Due to its large adsorption capacity and its great potential for energy conservation and environmental protection,MOFs is the main method of adsorbing CO2.Due to their special structure,the isoreticular metal-organic frameworks (IRMOFs) has the better CO2 adsorption performance than other MOFs materials.The structural properties of IRMOFs were shown,and listed several basic methods for synthesizing IRMOFs.Secondly,the adsorption of CO2 by IRMOFs,the adsorption effect,the adsorption selectivity and the stepped behavior of CO2 adsorption in MOFs were listed.Finally,it listed several modification methods for IRMOFs to enhance CO2 adsorption performance.

Cite this article

Tang Yitong, Li Xuefei, Hao Bo, Zhao Wenbo . Research progress on preparation of IRMOFs material and its application of CO2 capture[J]. New Chemical Materials, 2020 , 48(9) : 32 -37 . DOI: 10.19817/j.cnki.issn 1006-3536.2020.09.008

References

[1] Kember M R,Williams C K.Efficient magnesium catalysts for the copolymerization of epoxides and CO2;using water to synthesize polycarbonate polyols[J].Journal of the American Chemical Society,2012,134(38):15676-15679.
[2] Bustamante F,Orrego A F,Villegas S,et al.Modeling of chemical equilibrium and gas phase behavior for the direct synthesis of dimethyl carbonate from CO2 and methanol[J].Ind Eng Chem Res,2012,51(26):8945-8956.
[3] Chang F,Yang H J,Jin J,et al.Solubilities and partial molar volumes of 1-methypropanedioate derivatives in supercritical carbon dioxide[J].Fluid Phase Equilibria,2012,334(334):43-50.
[4] Yu H,Xiang Q,Fang M,et al.Promoted CO2 absorption in aqueous ammonia[J].Greenhouse Gases Science & Technology,2012,2(3):200-208.
[5] 赵倩,冯东,汪洋,等.配位不饱和金属-有机骨架材料吸附CO2的研究进展[J].化工进展,2017,36(5):1771-1781.
[6] Zukal A,Dominguez I,Mayerová J,et al.Functionalization of delaminated zeolite ITQ-6 for the adsorption of carbon dioxide[J].Langmuir the ACS Journal of Surfaces & Colloids,2009,25(17):10314-10321.
[7] Xu X,Zhao X,Sun L,et al.Adsorption separation of carbon dioxide,methane,and nitrogen on Hβ and Na-exchanged β-zeolite[J].Journal of Natural Gas Chemistry,2008,17(4):391-396.
[8] Kim B J,Cho K S,Park S J.Copper oxide-decorated porous carbons for carbon dioxide adsorption behaviors[J].Journal of Colloid & Interface Science,2010,342(2):575-578.
[9] Yang Q,Zhong C,Chen,et al.Computational study of CO2 storage in metal-organic frameworks[J].Journal of Physical Chemistry C,2008,112(5):1562-1569.
[10] Li J R,Kuppler R J,Zhou H C.Selective gas adsorption and separation in metal-organic frameworks[J].Cheminform,2009,38(5):1477-1504.
[11] Forgan R S,Smaldone R A,Gassensmith J J,et al.Nanoporous carbohydrate metal-organic frameworks[J].Journal of the American Chemical Society,2012,134(1):406-417.
[12] Babarao R,Hu Z,Jiang J,et al.Storage and separation of CO2 and CH4 in silicalite,C168 schwarzite,and IRMOF-1:a comparative study from monte carlo simulation[J].Langmuir the ACS Journal of Surfaces & Colloids,2007,23(2):659-666.
[13] Eddaoudi M.Systematic design of pore size and functionality in isoreticular MOFs and their application in methane storage[J].Science,2002,295(5554):469-472.
[14] Jic R,Millward A R,Park K S,et al.Hydrogen sorption in functionalized metal-organic frameworks[J].Journal of the American Chemical Society,2004,126(18):5666-5667.
[15] Jia C.Metal-organic frameworks (MOFs) as hydrogen storage materials[J].Progress in Chemistry,2009,21(9):1954-1962.
[16] Xu Q,Liu D,Yang Q,et al.Li-modified metal-organic frameworks for CO2/CH4 separation:a route to achieving high adsorption selectivity[J].Journal of Materials Chemistry,2010,20(4):706-714.
[17] Millward A R,Yaghi O M.Metal-organic frameworks with exceptionally high capacity for storage of carbon dioxide at room temperature[J].Journal of the American Chemical Society,2005,127(51):17998-17999.
[18] Kim D,Lee T B,Sang B C,et al.A density functional theory study of a series of functionalized metal-organic frameworks[J].Chemical Physics Letters,2006,420(1):256-260.
[19] Babarao R,Jiang J.Molecular screening of metal-organic frameworks for CO2 storage[J].Langmuir the ACS Journal of Surfaces & Colloids,2008,24(12):6270.
[20] Surblé S,Millange F,Serre C,et al.Synthesis of MIL-102,a chromium carboxylate metal-organic framework,with gas sorption analysis[J].Journal of the American Chemical Society,2006,128(46):14889-14896.
[21] 姜宁,邓志勇,王公应,等.金属有机框架材料的制备及在吸附分离CO2中的应用[J].化学进展,2014,26(10):1645-1654.
[22] Mckinstry C,Cussen E J,Fletcher A J,et al.Effect of synthesis conditions on formation pathways of metal organic framework (MOF-5) crystals[J].Crystal Growth & Design,2013,13(12):5481-5486.
[23] Tranchemontagne D J,Hunt J R,Yaghi O M.Room temperature synthesis of metal-organic frameworks:MOF-5,MOF-74,MOF-177,MOF-199,and IRMOF-0[J].Tetrahedron,2008,64(36):8553-8557.
[24] Rodríguez N A,Parra R,Grela M A.Structural characterization,optical properties and photocatalytic activity of MOF-5 and its hydrolysis products:implications on their excitation mechanism[J].RSC Advances,2015,5(89):73112-73118.
[25] Tranchemontagne D J,Park K S,Furukawa H,et al.Hydrogen storage in new metal-organic frameworks[J].The Journal of Physical Chemistry C,2012,116(24):13143-13151.
[26] Yang Q,Zhong C.Molecular simulation of carbon dioxide/methane/hydrogen mixture adsorption in metal-organic frameworks[J].The Journal of Physical Chemistry B,2006,110(36):17776-17783.
[27] 张所瀛,刘红,刘朋飞,等.金属有机骨架材料在CO2/CH4吸附分离中的研究进展[J].化工学报,2014,65(5):1563-1570.
[28] Furukawa H,Ko N,Go Y B,et al.Ultrahigh porosity in metal-organic frameworks[J].Science,2010,329(5990):424-428.
[29] 梁倩,赵震.金属有机骨架材料储存CO2的研究进展[J].工业催化,2010,18(7):1.
[30] Keskin S,Sholl D S.Screening metal-organic framework materials for membrane-based methane/carbon dioxide separations[J].The Journal of Physical Chemistry C,2007,111(38):14055-14059.
[31] Sarkisov L,Düren T,Snurr R Q.Molecular modelling of adsorption in novel nanoporous metal-organic materials[J].Molecular Physics,2004,102(2):211-221.
[32] Jiang J,Sandler S I.Monte carlo simulation for the adsorption and separation of linear and branched alkanes in IRMOF-1[J].Langmuir,2006,22(13):5702-5707.
[33] Dubbeldam D,Frost H,Walton K S,et al.Molecular simulation of adsorption sites of light gases in the metal-organic framework IRMOF-1[J].Fluid Phase Equilibria,2007,261(1):152-161.
[34] Santos K M C,Santos R J O,Alves M M D A,et al.Effect of high pressure CO2 sorption on the stability of metalorganic framework MOF-177 at different temperatures[J].Journal of Solid State Chemistry,2019,269:320-327.
[35] Xue C,Zhong C.Molecular simulation study of hexane diffusion in dynamic metal-organic frameworks[J].Chinese Journal of Chemistry,2010,27(3):472-478.
[36] Dubbeldam D,Walton K S,Ellis D E,et al.Exceptional negative thermal expansion in isoreticular metal-organic frameworks[J].Angewandte Chemie International Edition,2007,46(24):4496-4499.
[37] Walton K S,Millward A R,Dubbeldam David,et al.Understanding inflections and steps in carbon dioxide adsorption isothermsin metal-organic frameworks[J].Journal of the American Chemical Society,2008,130(2):406-407.
[38] Yang Qingyuan,Zhong Chongli.Electrostatic-field-induced enhancement of gas mixture separation in metal-organic frameworks:a computational study[J].Chemphyschem,2006,7(7):1417-1421.
[39] 安晓辉,刘大欢,仲崇立.二氧化碳在金属-有机骨架材料中吸附的阶梯现象[J].物理化学学报,2011,27(3):553-558.
[40] Kaye S S,Dailly A,Yaghi O M,et al.Impact of preparation and handling on the hydrogen storage properties of Zn4O(1,4-benzenedicarboxylate) 3 (MOF-5)[J].Journal of the American Chemical Society,2007,129(46):14176-14177.
[41] Greathouse J A,Allendorf M D.The interaction of water with MOF-5 simulated by molecular dynamics[J].Journal of the American Chemical Society,2006,128(33):10678-10679.
[42] Yang J,Grzech A,Mulder F M,et al.Methyl modified MOF-5:a water stable hydrogen storage material[J].Chemical Communications,2011,47(18):5244-5246.
[43] Flaig R W,Osborn Popp T M,Fracaroli A M,et al.The chemistry of CO2 capture in an amine-functionalized metal-organic framework under dry and humid conditions[J].Journal of the American Chemical Society,2017,139(35):12125-12128.
Options
Outlines

/