注册 English

离子液体催化甘油和尿素合成甘油碳酸酯

陈娟娟 王畅 董彬 冷文光 黄军 格日乐 高艳安

downloadPDF
引用本文: 陈娟娟, 王畅, 董彬, 冷文光, 黄军, 格日乐, 高艳安. 离子液体催化甘油和尿素合成甘油碳酸酯[J]. 催化学报, 2015, 36(3): 336-343. doi: 10.1016/S1872-2067(14)60257-6 shu
Citation:  Juanjuan Chen, Chang Wang, Bin Dong, Wenguang Leng, Jun Huang, Rile Ge, Yanan Gao. Ionic liquids as eco-friendly catalysts for converting glycerol and urea into high value-added glycerol carbonate[J]. Chinese Journal of Catalysis, 2015, 36(3): 336-343. doi: 10.1016/S1872-2067(14)60257-6 shu

离子液体催化甘油和尿素合成甘油碳酸酯

    通讯作者: 黄 军, 高艳安
  • 基金项目:

    国家自然科学基金(21273235, 21303076) (21273235, 21303076)

    中国科学院"百人计划". 

摘要: 将一系列酸性、碱性和中性的功能化离子液体用于催化甘油和尿素合成甘油碳酸酯.结果表明, 中性离子液体表现出更高的催化活性.离子液体阳离子和阴离子的协同效应促进了反应的进行, 离子液体阳离子的正电性活化尿素, 阴离子的负电性活化甘油, 并且催化剂酸碱位点的平衡对催化反应过程也有一定的影响.此外, 离子液体可以实现回收利用至少五次, 且催化活性基本不变.采用功能化离子液体替代传统金属催化剂, 减少了不可再生资源的利用, 且所用原料为廉价易得的生物基原料, 过程中也不使用有机溶剂, 环境友好.

English

    1. [1] Ma F R, Hanna M A. Bioresour Technol, 1999, 70: 1[1] Ma F R, Hanna M A. Bioresour Technol, 1999, 70: 1

    2. [2] Behr A, Eilting J, Irawadi K, Leschinski J, Lindner F. Green Chem, 2008, 10: 13[2] Behr A, Eilting J, Irawadi K, Leschinski J, Lindner F. Green Chem, 2008, 10: 13

    3. [3] Zhou C H, Beltramini J N, Fan Y X, Lu G Q. Chem Soc Rev, 2008, 37: 527[3] Zhou C H, Beltramini J N, Fan Y X, Lu G Q. Chem Soc Rev, 2008, 37: 527

    4. [4] Sonnati M O, Amigoni S, de Givenchy E P T, Darmanin T, Choulet O, Guittard F. Green Chem, 2013, 15: 283[4] Sonnati M O, Amigoni S, de Givenchy E P T, Darmanin T, Choulet O, Guittard F. Green Chem, 2013, 15: 283

    5. [5] Hu J L, Li J J, Gu Y L, Guan Z H, Mo W L, Ni Y M, Li T, Li G X. Appl Catal A, 2010, 386: 188[5] Hu J L, Li J J, Gu Y L, Guan Z H, Mo W L, Ni Y M, Li T, Li G X. Appl Catal A, 2010, 386: 188

    6. [6] Lim Y N, Lee C, Jang H Y. Eur J Org Chem, 2014: 1823[6] Lim Y N, Lee C, Jang H Y. Eur J Org Chem, 2014: 1823

    7. [7] Strain F. US Patent 2 446 145. 1948[7] Strain F. US Patent 2 446 145. 1948

    8. [8] Patel Y, George J, Pillai S M, Munshi P. Green Chem, 2009, 11: 1056[8] Patel Y, George J, Pillai S M, Munshi P. Green Chem, 2009, 11: 1056

    9. [9] Kim S C, Kim Y H, Lee H, Yoon D Y, Song B K. J Mol Catal B,2007, 49: 75[9] Kim S C, Kim Y H, Lee H, Yoon D Y, Song B K. J Mol Catal B,2007, 49: 75

    10. [10] Climent M J, Corma A, Frutos P D, Iborra S, Noy M, Velty A, Concepción P. J Catal, 2010, 269: 140[10] Climent M J, Corma A, Frutos P D, Iborra S, Noy M, Velty A, Concepción P. J Catal, 2010, 269: 140

    11. [11] Wang L G, Ma Y B, Wang Y, Liu S M, Deng Y Q. Catal Commun, 2011, 12: 1458[11] Wang L G, Ma Y B, Wang Y, Liu S M, Deng Y Q. Catal Commun, 2011, 12: 1458

    12. [12] Turney T W, Patti A, Gates W, Shaheen U, Kulasegaram S. Green Chem, 2013, 15: 1925[12] Turney T W, Patti A, Gates W, Shaheen U, Kulasegaram S. Green Chem, 2013, 15: 1925

    13. [13] Rahim M H A, He Q, Lopez-Sanchez J A, Hammond C, Dimitratos N, Sankar M, Carley A F, Kiely C J, Knight D W, Hutchings G J. Catal Sci Technol, 2012, 2: 1914[13] Rahim M H A, He Q, Lopez-Sanchez J A, Hammond C, Dimitratos N, Sankar M, Carley A F, Kiely C J, Knight D W, Hutchings G J. Catal Sci Technol, 2012, 2: 1914

    14. [14] Jagadeeswaraiah K, Kumar C R, Prasad P S S, Loridant S, Lingaiah N. Appl Catal A,2014, 469: 165[14] Jagadeeswaraiah K, Kumar C R, Prasad P S S, Loridant S, Lingaiah N. Appl Catal A,2014, 469: 165

    15. [15] Fujita S I, Yamanishi Y, Arai M. J Catal, 2013, 297: 137[15] Fujita S I, Yamanishi Y, Arai M. J Catal, 2013, 297: 137

    16. [16] Sandesh S, Shanbhag G V, Halgeri A B. RSC Adv, 2014, 4: 974[16] Sandesh S, Shanbhag G V, Halgeri A B. RSC Adv, 2014, 4: 974

    17. [17] Claude S, Mouloungui Z, Yoo J W, Gaset A. US Patent 6 025 504. 2000[17] Claude S, Mouloungui Z, Yoo J W, Gaset A. US Patent 6 025 504. 2000

    18. [18] Lee M S, Baek J H. US Patent 2 013 026 771 5A1. 2013[18] Lee M S, Baek J H. US Patent 2 013 026 771 5A1. 2013

    19. [19] Buzzeo M C, Evans R G, Compton R G. ChemPhysChem, 2004, 5: 1106[19] Buzzeo M C, Evans R G, Compton R G. ChemPhysChem, 2004, 5: 1106

    20. [20] Macfarlane D R, Forsyth M, Howlett P C, Pringle J M, Sun J, Annat G, Neil W, Izgorodina E I. Acc Chem Res, 2007, 40: 1165[20] Macfarlane D R, Forsyth M, Howlett P C, Pringle J M, Sun J, Annat G, Neil W, Izgorodina E I. Acc Chem Res, 2007, 40: 1165

    21. [21] Liu H T, Liu Y, Li J H. Phys Chem Chem Phys, 2010, 12: 1685[21] Liu H T, Liu Y, Li J H. Phys Chem Chem Phys, 2010, 12: 1685

    22. [22] Mulik A, Chandam D, Patil P, Patil D, Jagdale S, Deshmukh M. J Mol Liq, 2013, 179: 104[22] Mulik A, Chandam D, Patil P, Patil D, Jagdale S, Deshmukh M. J Mol Liq, 2013, 179: 104

    23. [23] Welton T. Chem Rev, 1999, 99: 2071[23] Welton T. Chem Rev, 1999, 99: 2071

    24. [24] Cole A C, Jensen J L, Ntai I, Tran K L T, Weaver K J, Forbes D C, Davis J H. J Am Chem Soc, 2002, 124: 5962[24] Cole A C, Jensen J L, Ntai I, Tran K L T, Weaver K J, Forbes D C, Davis J H. J Am Chem Soc, 2002, 124: 5962

    25. [25] Forbes D C, Weaver K J. J Mol Catal A, 2004, 214: 129[25] Forbes D C, Weaver K J. J Mol Catal A, 2004, 214: 129

    26. [26] Gu Y L, Shi F, Deng Y Q. Catal Commun, 2003, 4: 597[26] Gu Y L, Shi F, Deng Y Q. Catal Commun, 2003, 4: 597

    27. [27] Nockemann P, Thijs B, Parac-Vogt T N, Van Hecke K, Van Meervelt L, Tinant B, Hartenbach I, Schleid T, Ngan V T, Nguyen M T, Binnemans K. Inorg Chem, 2008, 47: 9987[27] Nockemann P, Thijs B, Parac-Vogt T N, Van Hecke K, Van Meervelt L, Tinant B, Hartenbach I, Schleid T, Ngan V T, Nguyen M T, Binnemans K. Inorg Chem, 2008, 47: 9987

    28. [28] Bates E D, Mayton R D, Ntai I, Davis J H. J Am Chem Soc, 2002, 124: 926[28] Bates E D, Mayton R D, Ntai I, Davis J H. J Am Chem Soc, 2002, 124: 926

    29. [29] Sarkar A, Roy S R, Parikh N, Chakraborti A K. J Org Chem, 2011, 76: 7132[29] Sarkar A, Roy S R, Parikh N, Chakraborti A K. J Org Chem, 2011, 76: 7132

    30. [30] Sarkar A, Roy S R, Chakraborti A K. Chem Commun, 2011, 47: 4538[30] Sarkar A, Roy S R, Chakraborti A K. Chem Commun, 2011, 47: 4538

    31. [31] Park D W, Mun N Y, Kim K H, Kim I, Park S W. Catal Today, 2006, 115: 130[31] Park D W, Mun N Y, Kim K H, Kim I, Park S W. Catal Today, 2006, 115: 130

    32. [32] Tharun J, Kathalikkattil A C, Roshan R, Kang D H, Woo H C, Park D W. Catal Commun, 2014, 54: 31[32] Tharun J, Kathalikkattil A C, Roshan R, Kang D H, Woo H C, Park D W. Catal Commun, 2014, 54: 31

    33. [33] Ju H Y, Manju M D, Kim K H, Park S W, Park D W. J Ind Eng Chem, 2008, 14: 157[33] Ju H Y, Manju M D, Kim K H, Park S W, Park D W. J Ind Eng Chem, 2008, 14: 157

    34. [34] Kim D W, Roshan R, Tharun J, Cherian A, Park D W. Korean J Chem Eng, 2013, 30: 1973[34] Kim D W, Roshan R, Tharun J, Cherian A, Park D W. Korean J Chem Eng, 2013, 30: 1973

    35. [35] Kim M I, Choi S J, Kim D W, Park D W. J Ind Eng Chem, 2014, 20: 3102[35] Kim M I, Choi S J, Kim D W, Park D W. J Ind Eng Chem, 2014, 20: 3102

    36. [36] Kim D W, Kim C W, Koh J C, Park D W. J Ind Eng Chem, 2010, 16: 474[36] Kim D W, Kim C W, Koh J C, Park D W. J Ind Eng Chem, 2010, 16: 474

    37. [37] Saravanamurugan S, Riisager A. Catal Today, 2013, 200: 94[37] Saravanamurugan S, Riisager A. Catal Today, 2013, 200: 94

    38. [38] Fukumoto K, Yoshizawa M, Ohno H. J Am Chem Soc, 2005, 127: 2398[38] Fukumoto K, Yoshizawa M, Ohno H. J Am Chem Soc, 2005, 127: 2398

    39. [39] Wang C, Liu X M, Yang M, Ma H Y, Yan P F, Slattery J M, Gao Y A. RSC Adv, 2013, 3: 8796[39] Wang C, Liu X M, Yang M, Ma H Y, Yan P F, Slattery J M, Gao Y A. RSC Adv, 2013, 3: 8796

    40. [40] Wang C, Liu J, Leng W G, Gao Y A. Int J Mol Sci, 2014, 15: 1284[40] Wang C, Liu J, Leng W G, Gao Y A. Int J Mol Sci, 2014, 15: 1284

    41. [41] Singh A, Kumar A. J Org Chem, 2012, 77: 8775[41] Singh A, Kumar A. J Org Chem, 2012, 77: 8775

    42. [42] Zhang S G, Qi X J, Ma X Y, Lu L J, Deng Y Q. J Phys Chem B, 2010, 114: 3912[42] Zhang S G, Qi X J, Ma X Y, Lu L J, Deng Y Q. J Phys Chem B, 2010, 114: 3912

    43. [43] Matsumoto K, Hagiwara R, Yoshida R, Ito Y, Mazej Z, Benkič P, Žemva B, Tamada O, Yoshino H, Matsubara S. Dalton Trans, 2004: 144[43] Matsumoto K, Hagiwara R, Yoshida R, Ito Y, Mazej Z, Benkič P, Žemva B, Tamada O, Yoshino H, Matsubara S. Dalton Trans, 2004: 144

    44. [44] Srour H, Rouault H, Santini C C, Chauvin Y. Green Chem, 2013, 15: 1341[44] Srour H, Rouault H, Santini C C, Chauvin Y. Green Chem, 2013, 15: 1341

    45. [45] Cull S G, Holbrey J D, Vargas-Mora V, Seddon K R, Lye G J. Biotechnol Bioeng, 2000, 69: 227[45] Cull S G, Holbrey J D, Vargas-Mora V, Seddon K R, Lye G J. Biotechnol Bioeng, 2000, 69: 227

    46. [46] Schaber P M, Colson J, Higgins S, Thielen D, Anspach B, Brauer J. Thermochim Acta, 2004, 424: 131[46] Schaber P M, Colson J, Higgins S, Thielen D, Anspach B, Brauer J. Thermochim Acta, 2004, 424: 131

    47. [47] Li Q B, Zhang W Y, Zhao N, Wei W, Sun Y H. Catal Today, 2006, 115: 111[47] Li Q B, Zhang W Y, Zhao N, Wei W, Sun Y H. Catal Today, 2006, 115: 111

    48. [48] Cláudio A F M, Swift L, Hallett J P, Welton T, Coutinho J A P, Freire M G. Phys Chem Chem Phys, 2014, 16: 6593[48] Cláudio A F M, Swift L, Hallett J P, Welton T, Coutinho J A P, Freire M G. Phys Chem Chem Phys, 2014, 16: 6593

    49. [49] Roy S R, Chakraborti A K. Org Lett, 2010, 12: 3866[49] Roy S R, Chakraborti A K. Org Lett, 2010, 12: 3866

    50. [50] Chakraborti A K, Roy S R. J Am Chem Soc, 2009, 131: 6902[50] Chakraborti A K, Roy S R. J Am Chem Soc, 2009, 131: 6902

    51. [51] Chakraborti A K, Roy S R, Kumar D, Chopra P. Green Chem, 2008, 10: 1111[51] Chakraborti A K, Roy S R, Kumar D, Chopra P. Green Chem, 2008, 10: 1111

    52. [52] Lungwitz R, Strehmel V, Spange S. New J Chem, 2010, 34: 1135[52] Lungwitz R, Strehmel V, Spange S. New J Chem, 2010, 34: 1135

  • 加载中
WeChat 扫一扫看文章
计量
  • PDF下载量:  226
  • 文章访问数:  685
  • HTML全文浏览量:  38
文章相关
  • 发布日期:  2015-03-20
  • 收稿日期:  2014-10-16
  • 网络出版日期:  2014-11-19
通讯作者: 陈斌, bchen63@163.com
  • 1. 

    沈阳化工大学材料科学与工程学院 沈阳 110142

  1. 本站搜索
  2. 百度学术搜索
  3. 万方数据库搜索
  4. CNKI搜索

/

返回文章

All Rights Reserved by the Chinese Chemical Society   中国化学会 版权所有 京ICP备05002797号

本系统由北京仁和汇智信息技术有限公司开发    技术支持: info@rhhz.net