Using sulfate-functionalized Hf-based metal.organic frameworks as a heterogeneous catalyst for solvent-free synthesis of pyrimido[1,2-a] benzimidazoles via one-pot three-component reaction

Minh-Huy Dinh Dang; Linh Ho Thuy Nguyen; Trang Thi Thu Nguyen; Ngoc Xuan Dat Mai; Phuong Hoang Tran; Tan Le Hoang Doan

Journal of Industrial and Engineering Chemistry, Vol.103, 340-347, November, 2021

DOI10.1016/j.jiec.2021.08.004 Export Citation

Using sulfate-functionalized Hf-based metal.organic frameworks as a heterogeneous catalyst for solvent-free synthesis of pyrimido[1,2-a] benzimidazoles via one-pot three-component reaction

Minh-Huy Dinh Dang^{1, 2}, Linh Ho Thuy Nguyen^{1, 2}, Trang Thi Thu Nguyen^{1, 2}, Ngoc Xuan Dat Mai^{1, 2}, Phuong Hoang Tran^{2, 3}, and Tan Le Hoang Doan^{1, 2, †}

¹Center for Innovative Materials and Architectures (INOMAR), Ho Chi Minh City, Viet Nam, Vietnam
²Vietnam National University-Ho Chi Minh City, Ho Chi Minh City, Viet Nam, Vietnam
³Department of Organic Chemistry, Faculty of Chemistry, University of Science, Ho Chi Minh City, Viet Nam, Vietnam

E-mail:

Functionalized metal.organic frameworks have recently received significant attention in heterogeneous catalysis applications due to their high catalytic activity. In this work, a sulfate-functionalized Hf-clusterbased metal.organic framework was prepared via sulfation of a Hf-MOF, named Hf-BTC, constructed by Hf6 clusters and 1,3,5-tricarboxylate linkers. The Hf-BTC-SO4 material was consequently demonstrated to be an efficiently reusable superacid catalyst for a one-pot three-component reaction of pyrimido[1,2-α] benzimidazoles synthesis. The reaction catalyzed by the sulfated Hf-BTC could be carried out under mild and solvent-free conditions and give superior performance in a wide range of substrates. According to detailed investigation, the good catalytic performance of the sulfated-functionalized MOF likely originates from the high-porosity framework and the high active sites of the functionalized clusters. Importantly, the catalyst could be easy to recover and reuse the functionalized framework several times with minor changes in catalytic efficiency.

Keywords:Sulfated-functionalization;Metal.organic frameworks;Superacid catalyst;Multi-component reaction;Heterogeneous catalysis

[References]

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Compound 4n, ethyl 4-hexyl-2-methyl-1,4-dihydrobenzo[4,5]imidazo[1,2-a] pyrimidine-3-carboxylate.

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[2] Safaei-Ghomi J, Ghasemzadeh MA, Chin. Chem. Lett., 23, 1225 (2012)

[3] Heravi MM, Faghihi Z, J. Iran. Chem. Soc., 11, 209 (2014)

[4] Li MM, Duan CS, Yu YQ, Xu DZ, Dyes Pigment., 150, 202 (2018)

[5] Feng J, Ablajan K, Sali A, Tetrahedron, 70, 484 (2014)

[6] Datta B, Pasha M, Ultrason. Sonochem., 18, 624 (2011)

[7] Zhu A, Xing X, Wang S, Yuan D, Zhu G, Geng M, Guo Y, zhang G, Li L, Green Chem., 21, 3407 (2019)

[8] Reddy MV, Reddy AVS, Jeong YT, Res. Chem. Intermed., 42, 4893 (2015)

[9] Goddard JP, Malacria M, Ollivier C, Multi-component Reactions in Molecular Diversity, Wiley Online Library, pp.1 2019.

[10] Wei L, Shen C, Hu YZ, Tao HY, Wang CJ, ChemComm, 55, 6672 (2019)

[11] Majumder A, Gupta R, Jain A, Green. Chem. Lett. Rev., 6, 151 (2013)

[12] Dang MHD, Nguyen LHT, Tran PH, Synthesis, 52, 1687 (2020)

[13] Kucukguzel SG, Senkardes S, Eur. J. Med. Chem., 97, 786 (2015)

[14] Mallo-Abreu A, Prieto-Diaz R, Jespers W, Azuaje J, Majellaro M, Velando C, Garcia-Mera X, Caamano O, Brea J, Loza MI, Gutierrez-de-Teran H, Sotelo E, J. Med. Chem., 63, 7721 (2020)

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[16] Reddy MV, Oh J, Jeong YT, C. R. Chim., 17, 484 (2014)

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[18] Yao CS, Lei S, Wang CH, Yu CX, Shao QQ, Tu SJ, Chin. J. Chem., 26, 2107 (2008)

[19] Dawood DH, Abbas EM, Farghaly TA, Ali MM, Ibrahim MF, Med. Chem., 15, 277 (2019)

[20] Mirmoeeni SE, Liyaghati-Delshad M, Abdolmaleki A, Monatsh. Chem., 151, 1135 (2020)

[21] Starr JT, Sciotti RJ, Hanna DL, Huband MD, Mullins LM, Cai H, Gage JW, Lockard M, Rauckhorst MF, Owen RM, Bioorg. Med. Chem. Lett., 19, 5302 (2009)

[22] Abdel-Hafez AAM, Arch. Pharm. Res., 30, 678 (2007)

[23] Rival Y, Grassy G, Michel G, Chem. Pharm. Bull., 40, 1170 (1992)

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[25] Kalita SJ, Deka DC, Mecadon H, RSC Adv., 6, 91320 (2016)

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[28] Li Y, Xu H, Ouyang S, Ye J, Phys. Chem. Chem. Phys., 18, 7563 (2016)

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[32] Sun Y, Hu Z, Zhao D, Zeng K, ACS Appl. Mater. Interfaces, 9, 32202 (2017)

[33] Remya V, Kurian M, Int. Nano Lett., 9, 17 (2019)

[34] Dang YT, Hoang HT, Dong HC, Bui KBT, Nguyen LHT, Phan TB, Kawazoe Y, Doan TLH, Microporous Mesoporous Mater., 298 (2020)

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[36] Gao S, Zhao L, Han L, Zhang Z, Zhao H, CrystEngComm, 20, 2237 (2018)

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[43] Rojas-Buzo S, Garcia-Garcia P, Corma A, Green Chem., 20, 3081 (2018)

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[46] Liu Y, Klet RC, Hupp JT, Farha O, ChemComm, 52, 7806 (2016)

[47] Zheng J, Wu M, Jiang F, Su W, Hong M, Chem. Sci., 6, 3466 (2015)

[48] Rojas-Buzo S, Garcia-Garcia P, Corma A, ChemSusChem, 11, 432 (2018)

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[50] Hu Z, Peng Y, Gao Y, Qian Y, Ying S, Yuan D, Horike S, Ogiwara N, Babarao R, Wang Y, Chem. Mater., 28, 2659 (2016)

[51] Das A, Nagaraj A, Perumal V, Dhakshinamoorthy A, Biswas S, New J. Chem., 44, 10982 (2020)

[52] Otake KI, Ye J, Mandal M, Islamoglu T, Buru CT, Hupp JT, Delferro M, Truhlar DG, Cramer CJ, Farha OK, ACS Catal., 9, 5383 (2019)

[53] Arstad B, Fjellvag H, Kongshaug KO, Swang O, Blom R, Adsorption, 14, 755 (2008)

[54] Razavi SAA, Morsali A, Coord. Chem. Rev., 399 (2019)

[55] Seo PW, Khan NA, Jhung SH, Chem. Eng. J., 315, 92 (2017)

[56] Sarker M, Shin SB, Jhung SH, J. Ind. Eng. Chem., 74, 158 (2019)

[57] Gascon J, Aktay U, Hernandez-Alonso MD, van Klink GPM, Kapteijn F, J. Catal., 261(1), 75 (2009)

[58] Serra-Crespo P, Ramos-Fernandez EV, Gascon J, Kapteijn F, Chem. Mater., 23, 2565 (2011)

[59] Lee JH, Nguyen TTT, Nguyen LHT, Phan TB, Kim SS, Doan TLH, J. Hazard. Mater., 403 (2021)

[60] Nguyen KD, Kutzscher C, Ehrling S, Senkovska I, Bon V, de Oliveira M, Gutmann T, Buntkowsky G, Kaskel S, J. Catal., 377, 41 (2019)

[61] Nguyen LH, Nguyen TT, Nguyen HL, Doan TLH, Tran PH, Catal. Sci. Technol., 7, 4346 (2017)

[62] Rojas-Buzo S, Garcia-Garcia P, Corma A, Catal. Sci. Technol., 9, 146 (2019)

[63] Jiang JC, Yaghi OM, Chem. Rev., 115(14), 6966 (2015)

[64] Beyzavi MH, Klet RC, Tussupbayev S, Borycz J, Vermeulen NA, Cramer CJ, Stoddart JF, Hupp JT, Farha OK, J. Am. Chem. Soc., 136(45), 15861 (2014)

[65] Tran PH, Bui TPT, Lam XQB, Thi-Nguyen XT, RSC Adv, 8, 36392 (2018)

[66] Basirat N, Sajadikhah SS, Zare A, Res. Chem. Intermed., 46, 3263 (2020)

[67] Compound 4i, ethyl 4-(4-(methoxycarbonyl)phenyl)-2-methyl-1,4-dihydrobenzo[4,5]imidazo[1,2-a]pyrimidine-3-carboxylate.

[68] Reddy MV, Reddy AVS, Jeong YT, Res. Chem. Intermed., 42, 4893 (2016)

[69] Compound 4n, ethyl 4-hexyl-2-methyl-1,4-dihydrobenzo[4,5]imidazo[1,2-a] pyrimidine-3-carboxylate.