Page 109 - 《精细化工）》2023年第10期

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第 10 期李佼妍，等: 金属有机骨架固载离子液体复合材料研究进展 ·2187·

参考文献： [21] NIK ZAIMAN N F H, SHAARI N, HARUN N A M. Developing
metal-organic framework-based composite for innovative fuel cell
[1] JAVAHENIAN M, SAGHANEZHAD S J. Synthesis, application: An overview[J]. International Journal of Energy Research,
characterization and applications of dicationic ionic liquids in 2022, 46(2): 471-504.
organic synthesis[J]. Mini-Reviews in Organic Chemistry, 2020, [22] ZHU H L, HUANG J R, LIAO P Q, et al. Rational design of metal-
17(4): 450-464. organic frameworks for electroreduction of CO 2 to hydrocarbons and
[2] CLARK K D, TRUJILLO-RODRIGUEZ M J, ANDERSON J L. carbon oxygenates[J]. ACS Central Science, 2022, 8(11): 1506-1517.
Advances in the analysis of biological samples using ionic liquids[J]. [23] DENG Y, WU Y, CHEN G, et al. Metal-organic framework
Analytical and Bioanalytical Chemistry, 2018, 410: 4567-4573. membranes: Recent development in the synthesis strategies and their
[3] FALLAH Z, ZARA E N, KHAN M A, et al. Ionic liquid-based application in oil-water separation[J]. Chemical Engineering Journal,
antimicrobial materials for water treatment, air filtration, food 2021, 405: 127004.
packaging and anticorrosion coatings[J]. Advances in Colloid and [24] QIN Y, LI Z, DUAN Y, et al. Nanostructural engineering of
Interface Science, 2021, 294: 102454. metal-organic frameworks: Construction strategies and catalytic
[4] ZHANG X F (张喜峰), LUO G H (罗光宏), ZHANG G N (张国娜), applications[J]. Matter, 2022, 5(10): 3260-3310.
et al. Separation of ursolic acid from cycanaliculare by ionic [25] ZENG S, ZHANG X, BAI L, et al. Ionic-liquid-based CO 2 capture
liquid/salt aqueous phase extraction[J]. Fine Chemicals (精细化工), systems: Structure, interaction and process[J]. Chemical Reviews,
2014, 31(9): 1080-1084. 2017, 117(14): 9625-9673.
[5] TU S H (涂盛辉), ZHANG Z W (张志文), ZHANG C (张超), et al. [26] SUN J K, LIN H J, ZHANG W Y, et al. A tale of two membranes:
Synergistic extraction of Nd(Ⅲ) with quaternary ammonium ionic From poly(ionic liquid) to metal-organic framework hybrid
liquid and neutral phosphorus oxygen extractor[J]. Fine Chemicals nanoporous membranes via pseudomorphic replacement[J]. Materials
(精细化工), 2020, 37(7): 1469-1477. Horizons, 2017, 4(4): 681-687.
[6] SILVA S S, GOMES J M, REIS R L, et al. Green solvents combined [27] DAI Q, MA J, MA S, et al. Cationic ionic liquids organic ligands
with bioactive compounds as delivery systems: Present status and based metal-organic frameworks for fabrication of core-shell
future trends[J]. ACS Applied Bio Materials, 2021, 4(5): 4000-4013. microspheres for hydrophilic interaction liquid chromatography[J].
[7] SHANG D, LIU X, BAI L, et al. Ionic liquids in gas separation ACS Applied Materials & Interfaces, 2016, 8(33): 21632-21639.
processing[J]. Current Opinion in Green and Sustainable Chemistry, [28] WANG J, XIE D, ZHANG Z, et al. Efficient adsorption separation of
2017, 5: 74-81. acetylene and ethylene via supported ionic liquid on metal-organic
[8] CHOTKOWSKI M, POLOMSKI D, CZERWINSKI K. Potential framework[J]. AIChE Journal, 2017, 63(6): 2165-2175.
application of ionic liquids for electrodeposition of the material targets [29] CHEN L H, WU B B, ZHAO H X, et al. High temperature ionic
for production of diagnostic radioisotopes[J]. Materials, 2020, 13(22): conduction mediated by ionic liquid incorporated within the
5069. metal-organic framework UiO-67 (Zr)[J]. Inorganic Chemistry
[9] SUZUKI S, TAKAHASHI K. Ionic liquids as organocatalysts and Communications, 2017, 81: 1-4.
solvents for lignocellulose reactions[J]. The Chemical Record, 2023: [30] ABEDNATANZI S, ABBASI A, MASTERI-FARAHANI M.
e202200264. Immobilization of catalytically active polyoxotungstate into ionic
[10] JIA P F (贾鹏飞)，WANG J (王娟)，CHANG Y F (常永芳), et al. liquid-modified MIL-100 (Fe): A recyclable catalyst for selective
Synthesis of ethyl chloroacetate catalyzed by acid ionic liquid oxidation of benzyl alcohol[J]. Catalysis Communications, 2017, 96:
[N 4H 4(CH 2) 6] 4HSO 4[J]. Fine Chemicals (精细化工), 2018, 35(4): 6-10.
608-611. [31] CHEN Y, HU Z, GUPTA K M, et al. Ionic liquid/metal-organic
[11] KAUSAR A. Advances in polymer-anchored carbon nanotube foam: framework composite for CO 2 capture: A computational investigation
A review[J]. Polymer-Plastics Technology and Materials, 2019, [J]. The Journal of Physical Chemistry C, 2011, 115(44): 21736-21742.
58(18): 1965-1978. [32] GUPTA K M, CHEN Y, HU Z, et al. Metal-organic framework
[12] LAVAGNA L, NISTICÒ R, MUSSO S, et al. Functionalization as a supported ionic liquid membranes for CO 2 capture: Anion effects[J].
way to enhance dispersion of carbon nanotubes in matrices: A Physical Chemistry Chemical Physics, 2012, 14(16): 5785-5794.
review[J]. Materials Today Chemistry, 2021, 20: 100477. [33] GUPTA K M, CHEN Y, JIANG J. Ionic liquid membranes supported
[13] KUSUMAWATI E N, SASAKI T. Metal nanoparticles syntheses on by hydrophobic and hydrophilic metal-organic frameworks for CO 2
ionic liquids functionalized mesoporous silica SBA-15[J]. The capture[J]. The Journal of Physical Chemistry C, 2013, 117(11):
Chemical Record, 2019, 19(9): 2058-2068. 5792-5799.
[14] WOLNY A, CHROBOK A. Silica-based supported ionic liquid-like [34] LI Z, XIAO Y, XUE W, et al. Ionic liquid/metal-organic framework
phases as heterogeneous catalysts[J]. Molecules, 2022, 27(18): 5900. composites for H 2S removal from natural gas: A computational
[15] KUNDE T, PAUSCH T, SCHMIDT B M. Porous organic exploration[J]. The Journal of Physical Chemistry C, 2015, 119(7):
compounds-small pores on the rise[J]. European Journal of Organic 3674-3683.
Chemistry, 2021, 2021(43): 5844-5856. [35] DHUMAL N R, SINGH M P, ANDERSON J A, et al. Molecular
[16] LITTLE M A, COOPER A I. The chemistry of porous organic interactions of a Cu-based metal-organic framework with a confined
molecular materials[J]. Advanced Functional Materials, 2020, 30(41): imidazolium-based ionic liquid: A combined density functional
1909842. theory and experimental vibrational spectroscopy study[J]. The
[17] CHEN Z, LI X, YANG C, et al. Hybrid porous crystalline materials Journal of Physical Chemistry C, 2016, 120(6): 3295-3304.
from metal organic frameworks and covalent organic frameworks[J]. [36] XUE W, LI Z, HUANG H, et al. Effects of ionic liquid dispersion in
Advanced Science, 2021, 8(20): 2101883. metal-organic frameworks and covalent organic frameworks on CO 2
[18] GANGU K K, MADDILA S, JONNALAGADDA S B. The capture: A computational study[J]. Chemical Engineering Science,
pioneering role of metal-organic framework-5 in ever-growing 2016, 140: 1-9.
contemporary applications-A review[J]. RSC Advances, 2022, 12(22): [37] MEHNERT C P, COOK R A, DISPENZIERE N C, et al. Supported
14282-14298. ionic liquid catalysis-A new concept for homogeneous
[19] PETIT C. Present and future of MOF research in the field of hydroformylation catalysis[J]. Journal of the American Chemical
adsorption and molecular separation[J]. Current Opinion in Chemical Society, 2002, 124(44): 12932-12933.
Engineering, 2018, 20: 132-142. [38] SUN J K, ANTONIETTI M, YUAN J. Nanoporous ionic organic
[20] ZULKIFLI Z I, LIM K L, TEH L P. Metal-organic frameworks networks: From synthesis to materials applications[J]. Chemical
(MOFs) and their applications in CO 2 adsorption and conversion[J]. Society Reviews, 2016, 45(23): 6627-6656.
ChemistrySelect, 2022, 7(22): e202200572.
[39] PARNHAM E R, MONRRIS R E. Ionothermal synthesis of zeolites,

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