Developing Brønsted.Lewis acids bifunctionalized ionic liquids based heteropolyacid hybrid as high-efficient solid acids in esterification and biomass conversion

Yong Liu; Yuefeng Wu; Miaojun Su; Weihua Liu; Xiying Li; Fujian Liu

Journal of Industrial and Engineering Chemistry, Vol.92, 200-209, December, 2020

DOI10.1016/j.jiec.2020.09.005 Export Citation

Developing Brønsted.Lewis acids bifunctionalized ionic liquids based heteropolyacid hybrid as high-efficient solid acids in esterification and biomass conversion

Yong Liu^†, Yuefeng Wu, Miaojun Su, Weihua Liu, Xiying Li, and Fujian Liu^{1, †}

Henan Key Laboratory of Polyoxometalate Chemistry, College of Chemistry and Chemical Engineering, Henan University, Kaifeng, 475004, PR China
¹National Engineering Research Center of Chemical Fertilizer Catalyst (NERC-CFC), School of Chemical Engineering, Fuzhou University, Fuzhou, 350002, PR China

E-mail:,

A class of Brønsted.Lewis acid bifunctionalized ionic liquids based heteropolyacid hybrid (BLA-ILs-HPA) solid acids were developed by combining the double sulfonic groups grafted, ionic liquids based heteropolyacid hybrid with Lewis acidic centers (M = Zn, Co, Fe, Ni, Cu). The prepared BLA-ILs-HPA show both Brønsted and Lewis acidic sites with extremely-high acid strength and enhanced stabilities, as determined by FT-IR, Py-IR, TG, XPS and 31P solid state NMR results. BLA-ILs-HPA were successfully applied in esterification camphene with acetic acid to produce isobornyl acetate, and dehydration of glucose to produce 5-hydrozymethylfural. BLA-ILs-HPA show enhanced catalytic activities in comparison with various acid catalysts. The effects of reaction temperatures, initial reactant molar ratio, catalyst dosage, and reaction time were studied in detail. The optimal reaction conditions were obtained, and the experimental data was successfully correlated by a pseudohomogeneous (PH) reaction kinetic model in the temperature range of 313.15.333.15 K. The calculated values obtained by the reaction kinetic model were in good agreement with the experimental data. Moreover, as a heterogeneous reaction catalyst, BLA-ILs-HPA can be recovered by simple treatment. After six times cycling, the decreasing in the catalytic activity of BLA-ILs-HPA could not be observed significantly, suggesting their good reusability.

Keywords:Solid acids;Esterification;Glucose dehydration;Ionic liquids based heteropolyacid hybrid;Reaction kinetics

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[Referenced By]

[1] Clark JH, Accounts Chem. Res., 35, 791 (2002)

[2] Liu FJ, Wang L, Sun Q, Zhu LF, Meng XJ, Xiao FS, J. Am. Chem. Soc., 134(41), 16948 (2012)

[3] Cole AC, Jensen JL, Ntai I, Tran KLT, Weaver KJ, Forbes DC, Davis JH, J. Am. Ceram. Soc., 124, 5962 (2002)

[4] Wu C, Lu LH, Peng AZ, Jia GK, Peng C, Cao Z, Tang Z, He WM, Xu XH, Green Chem., 20, 3683 (2018)

[5] Liu FJ, Yi XF, Chen W, Liu LQ, Chen W, Qi CZ, Song YF, Zheng AM, Chem. Sci., 10, 5875 (2019)

[6] Zhao PP, Zhang YY, Wang Y, Cui HY, Song F, Sun XY, Zhang LP, Green Chem., 20, 1551 (2018)

[7] Wang ZH, Chen QW, Green Chem., 18, 5884 (2016)

[8] Corma A, Chem. Rev., 95(3), 559 (1995)

[9] Liu FJ, Willhammar T, Wang L, Zhu LF, Sun Q, Meng XJ, Carrillo-Cabrera W, Zou XD, Xiao FS, J. Am. Chem. Soc., 134(10), 4557 (2012)

[10] Shekara BMC, Reddy CR, Madhuranthakam CR, Prakash BSJ, Bhat YS, Ind. Eng. Chem. Res., 50(7), 3829 (2011)

[11] Bedard J, Chiang H, Bhan A, J. Catal., 290, 210 (2012)

[12] Gangadwala J, Mankar S, Mahajani S, Kienle A, Stein E, Ind. Eng. Chem. Res., 42(10), 2146 (2003)

[13] Schmid B, Doker M, Gmehling J, Ind. Eng. Chem. Res., 47(3), 698 (2008)

[14] Tsai YT, Lin HM, Lee MJ, Ind. Eng. Chem. Res., 50(3), 1171 (2011)

[15] Liu FJ, Wu Q, Liu C, Qi C, Huang K, Tao DJ, Dai S, ChemSusChem, 9, 2496 (2016)

[16] Liu FJ, Huang K, Qu Q, Dai S, Adv. Mater., 29, 170044 (2017)

[17] Liu FJ, Zuo S, Kong W, Qi C, Green Chem., 14, 1342 (2012)

[18] Noshadi I, Kanjilal B, Du SC, Bollas GM, Suib SL, Provatas A, Liu FJ, Parnas RS, Appl. Energy, 129, 112 (2014)

[19] Leng Y, Wang J, Zhu DR, Ren XQ, Ge HQ, Shen L, Angew. Chem.-Int. Edit., 48, 168 (2009)

[20] Zhao PP, Zhang MJ, Wu YJ, Wang J, Ind. Eng. Chem. Res., 51(19), 6641 (2012)

[21] Yan JS, Wang ZQ, He YSEFW, Zhang DF, Wu QY, RSC Adv., 9, 8404 (2019)

[22] Xie WL, Wan F, Chem. Eng. J., 365, 40 (2019)

[23] Wang XC, Zhou Y, Chen GJ, Li J, Long ZY, Wang J, ACS Sustain. Chem. Eng., 2, 1918 (2014)

[24] Liu Y, Wang YT, Zhai CP, Chen WP, Qiao CZ, Ind. Eng. Chem. Res., 53(38), 14633 (2014)

[25] Liu Y, Liu WH, Wang L, Su MJ, Liu FJ, Ind. Eng. Chem. Res., 57(15), 5207 (2018)

[26] Liu Y, Liu WH, Shao XN, Wang JH, Li XY, Zhang HY, Catal. Lett., 148(1), 144 (2018)

[27] Hao LW, Sun LL, Su T, Hao DM, Liao WP, Deng CL, Ren WZ, Zhang YM, Lu HY, Chem. Eng. J., 358, 419 (2019)

[28] Liu FJ, Kong W, Wang L, Yi X, Noshadi I, Zheng A, Qi C, Green Chem., 17, 480 (2015)

[29] Liu FJ, Liu C, Kong W, Qi C, Zheng A, Dai S, Green Chem., 18, 6536 (2016)

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[31] Han XX, Du H, Hung CT, Liu LL, Wu PH, Ren DH, Huang SJ, Liu SB, Green Chem., 17, 499 (2015)

[32] Liu SW, Wang AT, Liu ZG, Li L, Yu ST, Xie CX, Liu FS, J. Am. Oil. Chem. Soc., 92, 1253 (2015)

[33] Han X, Yan W, Hung CT, He Y, Wu PH, Liu LL, Huang SJ, Liu SB, Korean J. Chem. Eng., 33(7), 2063 (2016)

[34] Ramli NAS, Amin NAS, J. Mol. Catal. A-Chem., 407, 113 (2015)

[35] Wei Y, Keke C, Xiaofang Z, Yingying K, Xiujuan T, Xiaoxiang H, J. Ind. Eng. Chem., 29, 185 (2015)

[36] Liu SW, Chen CG, Yu FL, Li L, Liu ZG, Yu ST, Xie CX, Liu FS, Fuel, 159, 803 (2015)

[37] Yuan B, Xie CX, Yu FL, Yang XY, Yu ST, Zhang JL, Chen XB, Springer Plus, 5, 460 (2016)

[38] Han XX, Ouyang K, Xiong CH, Tang XJ, Chen Q, Wang KW, Liu LL, Hung CT, Liu SB, Appl. Catal. A: Gen., 543, 115 (2017)

[39] Nezampour F, Ghiaci M, Farrokhpour H, Appl. Catal. A: Gen., 543, 104 (2017)

[40] Yuan B, Wang ZL, Yue XD, Yu FL, Xie CX, Yu ST, Renew. Energy, 123, 218 (2018)

[41] Yuan B, Li YL, Wang ZL, Yu FL, Xie CX, Yu ST, Mol. Catal., 443, 110 (2017)

[42] Xie W, Wang H, J. Ind. Eng. Chem., 87, 162 (2020)

[43] Qiu G, Huang CP, Sun XL, Chen BH, Green Chem., 21, 3930 (2019)

[44] Nahavandi M, Kasanneni T, Yuan ZS, Xu CC, Rohani S, ACS Sustain. Chem. Eng., 7, 11970 (2019)

[45] Ganji P, Roy S, Energy Fuels, 33(6), 5293 (2019)

[46] Wu Q, Liu FJ, Yu X, Zou Y, Jiang LL, Green Chem., 20, 1020 (2018)

[47] Liu FJ, Meng XJ, Zhang YL, Ren LM, Nawaz F, Xiao FS, J. Catal., 271(1), 52 (2010)

[48] Xia P, Liu FJ, Wang C, Zuo S, Qi C, Catal. Commun., 26, 140 (2012)

[49] Liu FJ, Kong W, Qi C, Zhu L, Xiao FS, ACS Catal., 2, 565 (2012)

[50] Liu FJ, Li B, Liu C, Kong W, Yi X, Zheng A, Qi C, Catal. Sci. Technol., 6, 2995 (2016)

[51] Noshadi I, Kumar RK, Kanjilal B, Parnas R, Liu H, Li JT, Liu FJ, Catal. Lett., 143(8), 792 (2013)

[52] Noshadi I, Carrie C, Borovilas J, Kanjilal B, Liu FJ, Ind. Eng. Chem. Res., 56(36), 10009 (2017)

[53] Noshadi I, Kanjilal B, Liu FJ, Appl. Catal. A: Gen., 513, 19 (2016)

[54] Solanki BS, Rode CV, Green Chem., 21, 6390 (2019)

[55] Thushari I, Babel S, Samart C, Renew. Energy, 134, 125 (2019)

[56] Tao DJ, Liu FJ, Wang L, Jiang LL, Appl. Catal. A: Gen., 564, 56 (2018)

[57] Xun SH, Zheng D, Yin S, Qin YJ, Zhang M, Jiang W, Zhu WS, RSC Adv., 6, 42402 (2016)

[58] Xiao LN, Yang LX, Du XD, Lan Q, Zhang H, Cui XB, Polyhedron, 147, 42 (2018)

[59] Tao JJ, Lu HL, Gu Y, Ma HP, Li X, Chen JX, Liu WJ, Zhang H, Feng JJ, Appl. Surf. Sci., 476, 733 (2019)

[60] Liu FJ, Huang K, Zheng A, Xiao FS, Dai S, ACS Catal., 8, 372 (2018)

[61] Kong WP, Liu Y, Liu FJ, Ind. Eng. Chem. Res., 57(42), 14080 (2018)

[62] Zheng AM, Liu SB, Deng F, Chem. Rev., 117(19), 12475 (2017)

[63] Zheng AM, Li SH, Liu SB, Deng F, Accounts Chem. Res., 49, 655 (2016)

[64] Liu FJ, Zheng AM, Noshadi I, Xiao FS, Appl. Catal. B: Environ., 136-137, 193 (2013)

[65] Liu FJ, Kamat RK, Noshadi I, Peck D, Parnas RS, Zheng AM, Qi CZ, Lin Y, Chem. Commun., 49, 8456 (2013)

[66] Hamerski F, Dusi GG, Santos JTF, Silva VR, Voll FAP, Corazza ML, Int. J. Chem. Kinet., 52, 499 (2020)

[67] Li QP, Sun Z, Liang Q, Zhou M, Xu S, Li ZY, Sun DZ, Solid State Sci., 97, 106010 (2019)

[68] Tao DJ, Wu YT, Zhou Z, Geng JA, Hu XB, Zhang ZB, Ind. Eng. Chem. Res., 50(4), 1989 (2011)

[69] Kong W, Liu FJ, Liu Y, Green Chem., 22, 903 (2020)

[70] Liu FJ, Zuo S, Wang C, Xiao FS, Qi C, Appl. Catal. B: Environ., 148-149, 106 (2014)

[71] Liu FJ, Sun J, Zhu L, Meng X, Qi C, Xiao FS, J. Mater. Chem., 22, 5495 (2012)

[72] Liu FJ, Chen W, Mi J, Zhang JY, Kan X, Zhong FY, Huang K, Zheng A, Jiang LL, AIChE J., 65, e16574 (2019)

[73] Su Y, Chang GG, Zhang ZG, Xing HB, Su BG, Yang QW, Ren QL, Yang YW, Bao ZB, AIChE J., 62(12), 4403 (2016)