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- In relation to this article, we declare that there is no conflict of interest.
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Received August 23, 2017
Accepted October 15, 2017
- This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
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Zirconium-based isoreticular metal-organic frameworks for CO2 fixation via cyclic carbonate synthesis
Division of Chemical and Biomolecular Engineering, Pusan National University, Busan 46241, Korea
dwpark@pusan.ac.kr
Korean Journal of Chemical Engineering, February 2018, 35(2), 438-444(7), 10.1007/s11814-017-0294-8
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Abstract
Two highly stable isoreticular metal-organic frameworks comprising chains of zirconium coordinated with linkers of 1,4-H2BDC (1,4-benzenedicarboxylic acid) and 4,4'-H2BPDC (4,4'-biphenyldicarboxylic acid), denoted as MIL-140A and MIL-140C, were synthesized. The catalytic activity of these frameworks was studied for the coupling reaction of CO2 and epoxides to produce cyclic carbonates under solvent-free conditions. Excellent activity was observed for both catalysts: they yielded high epoxide conversion with >99% selectivity toward the cyclic carbonate, and were fully reusable even after four cycles without any considerable loss of initial activity. The enhancement in the catalytic activity was explained based on acidity/basicity studies. The influence of various reaction parameters such as catalyst amount, reaction time, reaction temperature, and CO2 pressure was also investigated. Reaction mechanism was proposed on the basis of experimental evidence and our previous DFT (density functional theory) studies.
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Mikkelsen M, Jørgensen M, Krebs FC, Energy Environ. Sci., 3, 43 (2010)
Maeda C, Miyazaki Y, Ema T, Catal. Sci. Technol., 4, 1482 (2014)
Peng J, Yang HJ, Geng YC, Wei ZD, Wang LH, Guo CY, J. CO2 Util., 17, 243 (2017)
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Dhakshinamoorthy A, Asiric AM, Garcia H, Chem. Soc. Rev., 44, 1922 (2015)
Gascon J, Corma A, Kapteijn F, Llabres FX,, ACS Catal., 2, 361 (2014)
Cavka JH, Jakobsen S, Olsbye U, Guillou N, Lamberti C, Bordiga S, Lillerud KP, J. Am. Chem. Soc., 130(42), 13850 (2008)
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Liu L, Zhang J, Fang H, Chen L, Su CY, Chem. Asian J., 11, 2278 (2016)
Kim J, Kim SN, Jang HG, Seo G, Ahn WS, Appl. Catal. A: Gen., 453, 175 (2013)
Guillerm V, Ragon F, Dan-Hardi M, Devic T, Vishnuvarthan M, Campo B, Vimont A, Clet G, Yang Q, Maurin G, Frey G, Vittadini A, Gross S, Serre C, Angew. Chem.-Int. Edit., 10, 9267 (2012)
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Bae YS, Yazaydin AO, Snurr RQ, Langmuir, 26(8), 5475 (2010)
Kim DW, Roshan R, Tharun J, Kathalikkattil AC, Park CW, Korean J. Chem. Eng., 3, 1973 (2013)
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Beyzavi MH, Stephenson CJ, Liu Y, Karagiaridi O, Hupp JT, Farha OK, Frontiers Energy Res., 2, 1 (2015)
Roshith KR, Tharun J, Babu R, Hwang GY, Kathalikkattil AC, Kim DW, Park DW, Appl. Catal. B: Environ., 182, 562 (2016)
Han L, Choi HJ, Choi SJ, Liu B, Park DW, Green Chem., 13, 1023 (2011)
Roshith KR, Mathai G, Kim J, Tharun J, Park GA, Park DW, Green Chem., 14, 2933 (2012)
Babu R, Kathalikkattil AC, Roshan R, Tharun J, Kim DW, Park DW, Green Chem., 18, 232 (2016)
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Tharun J, Mathai G, Kathalikkattil AC, Roshan R, Won YS, Cho SJ, Chang JS, Park DW, ChemPlusChem, 80, 715 (2015)
Tharun J, Bhin KM, Roshan R, Kim DW, Kathalikkattil AC, Babu R, Ahn HY, Woo YS, Park DW, Green Chem., 18, 2479 (2016)
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Kathalikkattil AC, Kim DW, Tharun J, Soek HG, Roshan R, Park DW, Green Chem., 16, 1607 (2014)
Ema T, Miyazaki Y, Shimonishi J, Maeda C, Hasegawa J, JACS, 136, 15270 (2014)
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