Catalytic transfer hydrogenation of ethyl levulinate into g-valerolactone over mesoporous Zr/B mixed oxides

Jian He; Hu Li; Yanxiu Liu; Wenfeng Zhao; Tingting Yang; Wei Xue; Song Yang

Journal of Industrial and Engineering Chemistry, Vol.43, 133-141, November, 2016

DOI10.1016/j.jiec.2016.07.059 Export Citation

Catalytic transfer hydrogenation of ethyl levulinate into g-valerolactone over mesoporous Zr/B mixed oxides

Jian He¹, Hu Li¹, Yanxiu Liu¹, Wenfeng Zhao¹, Tingting Yang¹, Wei Xue¹, and Song Yang^{1, 2, †}

¹Center for Research and Development of Fine Chemicals, State-Local Joint Engineering Laboratory for Comprehensive Utilization of Biomass, State Key Laboratory Breeding Base of Green Pesticide and Agricultural Bioengineering (Ministry of Education), Guizhou University, Guiyang 550025, China
²School of Pharmacy, East China University of Science & Technology, Shanghai 200237, China

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A series of mesoporous acid.base bifunctional Zr/B mixed oxides with different molar ratios were prepared by a sol-gel method, and developed for conversion of ethyl levulinate (EL) to g-valerolactone (GVL) by using alcohol as hydrogen source. The morphological structures and physico-chemical characteristics of the synthesized materials were identified by various techniques. A high GVL yield of 88.5% was achieved from EL in 2-propanol when Zr1B1 was used. And acid-base sites played a synergic role in synthesizing GVL from EL as evident by poisoning experiments. Furthermore, the catalyst could be reused several times without significant loss of its catalytic activity.

Keywords:γ-Valerolactone;Biomass;Heterogeneous catalysis;Mesoporous material;Catalytic transfer hydrogenation

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[Referenced By]

[1] Holm MS, Saravanamurugan S, Taarning E, Science, 328(5978), 602 (2010)

[2] Li H, Fang Z, Smith RL, Yang S, Prog. Energy Combust. Sci., 55, 98 (2016)

[3] Liu A, Zhang Z, Fang Z, Liu B, Huang K, J. Ind. Eng. Chem., 20(4), 1977 (2014)

[4] Li H, Saravanamurugan S, Yang S, Riisager A, Green Chem., 18, 726 (2016)

[5] Lee O, Seong DH, Lee CG, Lee EY, J. Ind. Eng. Chem., 29, 24 (2015)

[6] You SJ, Park N, Park ED, Park MJ, J. Ind. Eng. Chem., 21, 350 (2015)

[7] Alonso DM, Wettstein SG, Dumesic JA, Green Chem., 15, 584 (2013)

[8] Qi L, Mui YF, Lo SW, Lui MY, Akien GR, Horva´ th IT, ACS Catal., 4, 1470 (2014)

[9] Du XL, Bi QY, Liu YM, Cao Y, He HY, Fan KN, Green Chem., 14, 935 (2012)

[10] Palkovits R, Angew. Chem.-Int. Edit., 49, 4336 (2010)

[11] Xin J, Yan D, Ayodele O, Zhang Z, Lu X, Zhang S, Green Chem., 17, 1065 (2015)

[12] Bond JQ, Alonso DM, Wang D, West RM, Dumesic JA, Science, 327(5969), 1110 (2010)

[13] Raoufmoghaddam S, Rood MTM, Buijze FKW, Drent E, Bouwman E, ChemSusChem, 7, 1984 (2014)

[14] Vobecka Z, Wei CX, Tauer K, Esposito D, Polymer, 74, 262 (2015)

[15] Mascal M, Nikitin EB, ChemSusChem, 3, 1349 (2010)

[16] Yan K, Yang YY, Chai JJ, Lu Y, Appl. Catal. B: Environ., 179, 292 (2015)

[17] Yan K, Jarvis C, Gu J, Yan Y, Renew. Sust. Energ. Rev., 51, 986 (2015)

[18] Xiao C, Goh T, Qi Z, Goes S, Brashler K, Perez C, Huang W, ACS Catal., 6, 593 (2016)

[19] Upare PP, Lee JM, Hwang DW, Halligudi SB, Hwang YK, Chang JS, J. Ind. Eng. Chem., 17(2), 287 (2011)

[20] Ye F, Zhang D, Xue T, Wang Y, Guan Y, Green Chem., 16, 3951 (2014)

[21] Testa ML, Corbel-Demailly L, La Parola V, Venezia AM, Pinel C, Catal. Today, 257, 291 (2015)

[22] Balla P, Perupogu V, Vanama PK, Komandur VRC, J. Chem. Technol. Biotechnol., 91, 769 (2015)

[23] Kumar VV, Naresh G, Sudhakar M, Tardio J, Bhargava SK, Venugopal A, Appl. Catal. A: Gen., 505, 217 (2015)

[24] Yan K, Lafleur T, Wu GS, Liao JY, Ceng C, Xie XM, Appl. Catal. A: Gen., 468, 52 (2013)

[25] Yan K, Lafleur T, Jarvis C, Wu G, J. Clean Prod., 72, 230 (2014)

[26] Du X, He L, Zhao S, Liu Y, Cao Y, He H, Fan K, Angew. Chem.-Int. Edit., 50, 7815 (2011)

[27] Braden DJ, Henao CA, Heltzel J, Maravelias CC, Dumesic JA, Green Chem., 13, 1755 (2011)

[28] Ortiz-Cervantes C, Flores-Alamo M, Garcıa JJ, ACS Catal., 5, 1424 (2015)

[29] Fu M, Shang R, Huang Z, Fu Y, Synlett, 25, 2748 (2014)

[30] Ruiz JR, Jimenez-Sanchidrian C, Curr. Org. Chem., 11, 1113 (2007)

[31] Rao RS, Walters AB, Vannice MA, J. Phys. Chem. B, 109(6), 2086 (2005)

[32] Wang J, Jaenicke S, Chuah G, RSC Adv., 4, 13481 (2014)

[33] Tang X, Chen HW, Hu L, Hao WW, Sun Y, Zeng XH, Lin L, Liu SJ, Appl. Catal. B: Environ., 147, 827 (2014)

[34] Song J, Zhou B, Zhou H, Wu L, Meng Q, Liu Z, Han B, Angew. Chem.-Int. Edit., 127, 9531 (2015)

[35] Li H, Fang Z, Yang S, ACS Sustain. Chem. Eng., 4, 236 (2016)

[36] Li H, Fang Z, Yang S, ChemPlusChem, 81, 135 (2016)

[37] He J, Li H, Lu YM, Liu YX, Wu ZB, Hu DY, Yang S, Appl. Catal. A: Gen., 510, 11 (2016)

[38] Chia M, Dumesic JA, Chem. Commun., 47, 12233 (2011)

[39] Tang X, Hu L, Sun Y, Zhao G, Hao W, Lin L, RSC Adv., 3, 10277 (2013)

[40] Kuwahara Y, Kaburagi W, Fujitani T, Bull. Chem. Soc. Jpn., 87, 1252 (2014)

[41] Osiglio L, Romanelli G, Blanco M, J. Mol. Catal. A-Chem., 316(1-2), 52 (2010)

[42] Xu BQ, Cheng SB, Jiang S, Zhu QM, Appl. Catal. A: Gen., 188(1-2), 361 (1999)

[43] Urbano FJ, Aramendia MA, Marinas A, Marinas JM, J. Catal., 268(1), 79 (2009)

[44] Li W, Yue Q, Deng YH, Zhao DY, Adv. Mater., 25(37), 5129 (2013)

[45] Rahmani S, Rezaei M, Meshkani F, J. Ind. Eng. Chem., 20(6), 4176 (2014)

[46] Rahmani S, Rezaei M, Meshkani F, J. Ind. Eng. Chem., 20(4), 1346 (2014)

[47] Deng QF, Ren TZ, Agula B, Liu Y, Yuan ZY, J. Ind. Eng. Chem., 20(5), 3303 (2014)

[48] Appavu B, Kannan K, Thiripuranthagan S, J. Ind. Eng. Chem., 36, 184 (2016)

[49] Su J, Cao L, Li L, Wei J, Li G, Yuan Y, Nanoscale, 5, 9720 (2013)

[50] Dominguez JM, Hernandez JL, Sandoval G, Appl. Catal. A: Gen., 197(1), 119 (2000)

[51] Choudhary TV, Santra AK, Sivadinarayana C, Min BK, Yi CW, Davis K, Goodman DW, Catal. Lett., 77(1-3), 1 (2001)

[52] Sinhamahapatra A, Pal P, Tarafdar A, Bajaj HC, Panda AB, ChemCatChem, 5, 331 (2013)

[53] Tang B, Dai W, Sun X, Wu G, Guan N, Hunger M, Li L, Green Chem., 17, 1744 (2015)

[54] Sushkevich VL, Ivanova II, Tolborg S, Taarning E, J. Catal., 316, 121 (2014)

[55] Zhu LY, Wang XQ, Zhang GH, Ren Q, Xu D, Appl. Catal. B: Environ., 103(3-4), 428 (2011)

[56] Li H, Zhang L, Zeng Q, Wang J, Cheng L, Ren H, Guan K, Comput. Mater. Sci., 49, 814 (2010)

[57] Ardizzone S, Bianchi CL, Appl. Surf. Sci., 152, 63 (1999)

[58] Wu H, Mei Q, Xing C, Bi J, J. Alloy. Compd., 679, 26 (2016)

[59] Fung J, Wang I, J. Catal., 164(1), 166 (1996)

[60] Xue L, Wei J, Zhang D, Li X, Liu X, J. Porous Mat., 22, 1119 (2015)

[61] Shao H, Chen JJ, Zhong J, Leng YX, Wang J, Ind. Eng. Chem. Res., 54(5), 1470 (2015)

[62] van der Waal JC, Kunkeler PJ, Tan K, van Bekkum H, J. Catal., 173(1), 74 (1998)

[63] Ivanov VA, Bachelier J, Audry F, Lavalley JC, J. Mol. Catal. A-Chem., 91, 45 (1994)

[64] Lopez DE, Goodwin JG, Bruce DA, Lotero E, Appl. Catal. A: Gen., 295(2), 97 (2005)

[65] Wibowo N, Setyadhi L, Wibowo D, Setiawan J, Ismadji S, J. Hazard. Mater., 146(1-2), 237 (2007)