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OALib Journal期刊
ISSN: 2333-9721
费用:99美元
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MCM-41分子筛负载亚硒核过氧钨酸盐催化剂催化二苯并噻吩氧化脱硫
DOI: 10.1016/S1872-2067(15)60897-X, PP. 1205-1213
Keywords: 二苯并噻吩,氧化脱硫,亚硒核过氧钨酸盐,MCM-41分子筛
Abstract:
?石油在作为燃料使用过程中常常产生各种污染,特别是油品中的含硫化合物不仅会降低油品品质,而且燃烧后产生的硫氧化物可污染大气,形成酸雨,危害人类健康.因此,油品深度脱硫是一项十分重要而紧迫的工作.目前油品脱硫方法有很多种,主要分为加氢脱硫与非加氢脱硫.加氢脱硫反应条件苛刻,脱硫效率低,对设备要求高,因而非加氢脱硫正在被广泛研究.其中氧化脱硫反应条件温和,脱硫效率高,对设备要求不高,有望实现规模化应用.在氧化脱硫反应中,催化剂是研究重点,尤其是催化剂效率及可回收能力.本课题组合成的亚硒核过氧钨酸盐是一种具有高选择性和高催化活性的催化剂,但它在反应后无法实现回收再利用,从而限制了其广泛应用.为了提高该催化剂的可回收能力,本文尝试制备负载型亚硒核过氧钨酸盐用于氧化脱硫反应中,考察其催化效率及可回收能力.分子筛具有孔结构,比表面积大且较为稳定,是理想的催化剂载体.本文采用浸渍法制备了MCM-41分子筛负载的亚硒核过氧钨酸盐,为了提高负载能力,减少催化剂溶脱,还制备了MCM-41-NH2分子筛负载的亚硒核过氧钨酸盐,并运用红外光谱、X射线衍射、N2吸附-脱附和透射电镜对它们进行了表征.结果显示,亚硒核过氧钨酸盐在MCM-41和MCM-41-NH2分子筛内分散均匀,表明负载成功.将负载型亚硒核过氧钨酸盐催化剂用于模拟油样二苯并噻吩(DBT)氧化脱硫实验,并用气相-火焰光度检测仪跟踪实验.结果表明,负载型和非负载型催化剂均具有较高的催化性能.模拟油样在负载型催化剂作用下氧化脱硫反应2h后,DBT转化率达98.7%,实现了深度脱硫.此外,还优化了反应时间、反应温度及氧化剂和催化剂用量.与其它催化剂相比,在相似脱硫效率情况下,负载型催化剂的催化效率更高,反应条件更加温和,催化剂用量更少,因而更加环保和节能.对反应产物进行了红外光谱、气相-质谱联用分析以及气相色谱保留时间对比分析,结果表明DBT脱硫反应产物为DBTO2.结合相关文献,对该催化剂上DBT氧化脱硫提出了一种可能的催化氧化反应机理.反应后将负载型催化剂回收过滤,洗涤和干燥后,进行下一轮氧化脱硫反应.结果表明,MCM-41分子筛负载的亚硒核过氧钨酸盐在循环使用过程中,DBT转化率下降较快,循环使用4次后,DBT转化率降至80%,而MCM-41-NH2分子筛负载的催化剂在循环使用4次后,DBT转化率仍达90%.这表明MCM-41-NH2分子筛负载的亚硒核过氧钨酸盐催化剂具有更好的稳定性和回收使用性能.综上所述,负载型亚硒核过氧钨酸盐是一种高效的氧化脱硫催化剂,在较为温和的反应条件下即可实现深度催化氧化脱硫,其循环使用性能也得到明显提高.本结果可为该催化剂未来在工业上广泛应用提供一定参考.
| [1] | Palomino J M, Tran D T, Hauser J L, Dong H, Oliver S R J. J Mater Chem A, 2014, 2: 14890
|
| [2] | Srivastava V C. RSC Adv, 2012, 2: 759
|
| [3] | Liu C H, He Q H, Zhang Z, Su Y Y, Xu R F, Hu B X. Chin J Chem, 2014, 32: 410
|
| [4] | Tang N F, Zhao X P, Jiang Z X, Li C. Chin J Catal (唐南方, 赵小平, 蒋宗轩, 李灿. 催化学报), 2014, 35: 1433
|
| [5] | Huang C P, Chen B H, Zhang J, Liu Z C, Li Y X. Energy Fuels, 2004, 18: 1862
|
| [6] | Ali S H, Hamad D M, Albusairi B H, Fahim M A. Energy Fuels, 2009, 23: 5986
|
| [7] | Xiong J, Zhu W S, Ding W J, Yang L, Chao Y H, Li H P, Zhu F X, Li H M. Ind Eng Chem Res, 2014, 53: 19895
|
| [8] | Stanislaus A, Marafi A, Rana M S. Catal Today, 2010, 153: 1
|
| [9] | Song C S. Catal Today, 2003, 86: 211
|
| [10] | Ma X L, Sakanishi K, Mochida I. Ind Eng Chem Res, 1994, 33: 218
|
| [11] | Ribeiro S, Barbosa A D S, Gomes A C, Pillinger M, Goncalves I S, Cunha-Silva L, Balula S S. Fuel Process Technol, 2013, 116: 350
|
| [12] | Xiao J, Song C S, Ma X L, Li Z. Ind Eng Chem Res, 2012, 51: 3436
|
| [13] | García-Gutiérrez J L, Laredo G C, García-Gutiérrez P, Jiménez-Cruz F. Fuel, 2014, 138: 118
|
| [14] | Zhu W S, Li H M, Jiang X, Yan Y S, Lu J D, Xia J X. Energy Fuels, 2007, 21: 2514
|
| [15] | Zhao D S, Sun Z M, Li F T, Liu R, Shan H D. Energy Fuels, 2008, 22: 3065
|
| [16] | Song H, Wan X, Dai M, Zhang J J, Li F, Song H L. Fuel Process Technol, 2013, 116: 52
|
| [17] | Derikvand P, Etemadifar Z, Biria D. Int Biodeter Biodegr, 2014, 86: 343
|
| [18] | Shu C H, Sun T H, Zhang H B, Jia J P, Lou Z Y. Fuel, 2014, 121: 72
|
| [19] | Imtiaz A, Waqas A, Muhammad I. Chin J Catal (催化学报), 2013, 34: 1839
|
| [20] | Ban L L, Liu P, Ma C H, Dai B. Chin Chem Lett, 2013, 24: 755
|
| [21] | Chamack M, Mahjoub A R, Aghayan H. Chem Eng J, 2014, 255: 686
|
| [22] | Fang D W, Wang Q, Liu Y, Xia L X, Zang S L. Energy Fuels, 2014, 28: 6677
|
| [23] | Jiang Z X, Lü H Y, Zhang Y N, Li C. Chin J Catal (蒋宗轩, 吕宏缨, 张永娜, 李灿. 催化学报), 2011, 32: 707
|
| [24] | Zhang G F, Yu F L, Wang R. Petroleum Coal, 2009, 51: 196
|
| [25] | Campos-Martin J M, Capel-Sanchez M C, Perez-Presas P, Fierro J L G. J Chem Technol Biotechnol, 2010, 85: 879
|
| [26] | Zheng H W, Sun Z, Chen X L, Zhao Q, Wang X H, Jiang Z J. Appl Catal A, 2013, 467: 26
|
| [27] | Chan N Y, Lin T Y, Yen T F. Energy Fuels, 2008, 22: 3326
|
| [28] | Sundararaman R, Ma X L, Song C S. Ind Eng Chem Res, 2010, 49: 5561
|
| [29] | Xiao J, Wu L M, Wu Y, Liu B, Dai L, Li Z, Xia Q B, Xi H X. Appl Energy, 2014, 113: 78
|
| [30] | Abdalla Z E A, Li B S. Chem Eng J, 2012, 200-202: 113
|
| [31] | Te M, Fairbridge C, Ring Z. Appl Catal A, 2001, 219: 267
|
| [32] | Zhang J, Wang A J, Wang Y J, Wang H Y, Gui J Z. Chem Eng J, 2014, 245: 65
|
| [33] | Li C, Jiang Z X, Gao J B, Yang Y X, Wang S J, Tian F P, Sun F X, Sun X P, Ying P L, Han C R. Chem Eur J, 2004, 10: 2277
|
| [34] | Mei H, Mei B W, Yen T F. Fuel, 2003, 82: 405
|
| [35] | Wan M W, Yen T F. Appl Catal A, 2007, 319: 237
|
| [36] | Zhang M, Zhu W S, Xun S H, Li H M, Gu Q Q, Zhao Z, Wang Q. Chem Eng J, 2013, 220: 328
|
| [37] | Shu C H, Sun T H, Zhang H B, Jia J P, Lou Z Y. Fuel, 2014, 121: 72
|
| [38] | Imtiaz A, Waqas A, Muhammad I. Chin J Catal (催化学报), 2013, 34: 1839
|
| [39] | Mei H, Mei B W, Yen T F. Fuel, 2003, 82: 405
|
| [40] | Wan M W, Yen T F. Appl Catal A, 2007, 319: 237
|
| [41] | Zhang M, Zhu W S, Xun S H, Li H M, Gu Q Q, Zhao Z, Wang Q. Chem Eng J, 2013, 220: 328
|
| [42] | Zhu W S, Wu P W, Yang L, Chang Y H, Chao Y H, Li H M, Jiang Y Q, Jiang W, Xun S H. Chem Eng J, 2013, 229: 250
|
| [43] | Shan J H, Chen L, Sun L B, Liu X Q. Energy Fuels, 2011, 25: 3093
|
| [44] | Zhu W S, Xu Y H, Li H M, Dai B L, Xu H, Wang C, Chao Y H, Liu H. Korean J Chem Eng, 2014, 31: 211
|
| [45] | Luo G Q, Kang L H, Zhu M Y, Dai B. Fuel Process Technol, 2014, 118: 20
|
| [46] | Zhu W S, Zhu G P, Li H M, Chao Y H, Zhang M, Du D L, Wang Q, Zhao Z. Fuel Process Technol, 2013, 106: 70
|
| [47] | Li B S, Ma W, Liu J J, Han C Y, Zuo S L, Li X F. Catal Commun, 2011, 13: 101
|
| [48] | Li J L, Hu B, Tan J J, Zhuang J Z. Transit Metal Chem, 2013, 38: 495
|
| [49] | Nowińska K, Kaleta W. Appl Catal A, 2000, 203: 91
|
| [50] | Verhoef M J, Kooyman P J, Peters J A, Van Bekkum H. Microporous Mesoporous Mater, 1999, 27: 365
|
| [51] | Hu Y W, He Q H, Zhang Z, Ding N D, Hu B X. Chem Commun, 2011, 47: 12194
|
| [52] | Kresge C T, Leonowicz M E, Roth W J, Vartuli J C, Beck J S. Nature, 1992, 359: 710
|
| [53] | Roik N V, Belyakova L A. J Solid State Chem, 2014, 215: 284
|
| [54] | Corma A. Chem Rev, 1997, 97: 2373
|
| [55] | Johnson B J S, Stein A. Inorg Chem, 2001, 40: 801
|
| [56] | Stanislaus A, Marafi A, Rana M S. Catal Today, 2010, 153: 1
|
| [57] | Song C S. Catal Today, 2003, 86: 211
|
| [58] | Ma X L, Sakanishi K, Mochida I. Ind Eng Chem Res, 1994, 33: 218
|
| [59] | Ribeiro S, Barbosa A D S, Gomes A C, Pillinger M, Goncalves I S, Cunha-Silva L, Balula S S. Fuel Process Technol, 2013, 116: 350
|
| [60] | Xiao J, Song C S, Ma X L, Li Z. Ind Eng Chem Res, 2012, 51: 3436
|
| [61] | García-Gutiérrez J L, Laredo G C, García-Gutiérrez P, Jiménez-Cruz F. Fuel, 2014, 138: 118
|
| [62] | Zhu W S, Li H M, Jiang X, Yan Y S, Lu J D, Xia J X. Energy Fuels, 2007, 21: 2514
|
| [63] | Zhao D S, Sun Z M, Li F T, Liu R, Shan H D. Energy Fuels, 2008, 22: 3065
|
| [64] | Song H, Wan X, Dai M, Zhang J J, Li F, Song H L. Fuel Process Technol, 2013, 116: 52
|
| [65] | Derikvand P, Etemadifar Z, Biria D. Int Biodeter Biodegr, 2014, 86: 343
|
| [66] | Shu C H, Sun T H, Zhang H B, Jia J P, Lou Z Y. Fuel, 2014, 121: 72
|
| [67] | Imtiaz A, Waqas A, Muhammad I. Chin J Catal (催化学报), 2013, 34: 1839
|
| [68] | Ban L L, Liu P, Ma C H, Dai B. Chin Chem Lett, 2013, 24: 755
|
| [69] | Chamack M, Mahjoub A R, Aghayan H. Chem Eng J, 2014, 255: 686
|
| [70] | Fang D W, Wang Q, Liu Y, Xia L X, Zang S L. Energy Fuels, 2014, 28: 6677
|
| [71] | Jiang Z X, Lü H Y, Zhang Y N, Li C. Chin J Catal (蒋宗轩, 吕宏缨, 张永娜, 李灿. 催化学报), 2011, 32: 707
|
| [72] | Zhang G F, Yu F L, Wang R. Petroleum Coal, 2009, 51: 196
|
| [73] | Hu Y W, He Q H, Zhang Z, Ding N D, Hu B X. Chem Commun, 2011, 47: 12194
|
| [74] | Kresge C T, Leonowicz M E, Roth W J, Vartuli J C, Beck J S. Nature, 1992, 359: 710
|
| [75] | Kamata K, Hirano T, Ishimoto R, Mizuno N. Dalton Trans, 2010, 39: 5509
|
| [76] | Zhu W S, Wu P W, Yang L, Chang Y H, Chao Y H, Li H M, Jiang Y Q, Jiang W, Xun S H. Chem Eng J, 2013, 229: 250
|
| [77] | Shan J H, Chen L, Sun L B, Liu X Q. Energy Fuels, 2011, 25: 3093
|
| [78] | Zhu W S, Xu Y H, Li H M, Dai B L, Xu H, Wang C, Chao Y H, Liu H. Korean J Chem Eng, 2014, 31: 211
|
| [79] | Luo G Q, Kang L H, Zhu M Y, Dai B. Fuel Process Technol, 2014, 118: 20
|
| [80] | Zhu W S, Zhu G P, Li H M, Chao Y H, Zhang M, Du D L, Wang Q, Zhao Z. Fuel Process Technol, 2013, 106: 70
|
| [81] | Li B S, Ma W, Liu J J, Han C Y, Zuo S L, Li X F. Catal Commun, 2011, 13: 101
|
| [82] | Li J L, Hu B, Tan J J, Zhuang J Z. Transit Metal Chem, 2013, 38: 495
|
| [83] | Nowińska K, Kaleta W. Appl Catal A, 2000, 203: 91
|
| [84] | Verhoef M J, Kooyman P J, Peters J A, Van Bekkum H. Microporous Mesoporous Mater, 1999, 27: 365
|
| [85] | Hu Y W, He Q H, Zhang Z, Ding N D, Hu B X. Chem Commun, 2011, 47: 12194
|
| [86] | Kresge C T, Leonowicz M E, Roth W J, Vartuli J C, Beck J S. Nature, 1992, 359: 710
|
| [87] | Roik N V, Belyakova L A. J Solid State Chem, 2014, 215: 284
|
| [88] | Corma A. Chem Rev, 1997, 97: 2373
|
| [89] | Johnson B J S, Stein A. Inorg Chem, 2001, 40: 801
|
| [90] | Marme F, Coudurier G, Védrine J C. Microporous Mesoporous Mater, 1998, 22: 151
|
| [91] | Ishimoto R, Kamata K, Mizuno N. Angew Chem Int Ed, 2009, 48: 8900
|
| [92] | Hulea V, Fajula F, Bousquet J. J Catal, 2001, 198: 179
|
| [93] | Lü H Y, Gao J B, Jiang Z X, Yang Y X, Song B, Li C. Chem Commun, 2007: 150
|
| [94] | Blasco T, Corma A, Martínez A, Martínez-Escolano P. J Catal, 1998, 177: 306
|
| [95] | Lim M H, Blanford C F, Stein A. Chem Mater, 1998, 10: 467
|
| [96] | Xiong J, Zhu W S, Ding W J, Yang L, Zhang M, Jiang W, Zhao Z, Li H M. RSC Adv, 2015, 5: 16847
|
| [97] | Li H M, Zhu W S, Wang Y, Zhang J T, Lu J D, Yan Y S. Green Chem, 2009, 11: 810
|
| [98] | Ding W J, Zhu W S, Xiong J, Yang L, Wei A M, Zhang M, Li H M. Chem Eng J, 2015, 266: 213
|
| [99] | Zhu W S, Li H M, Jiang X, Yan Y S, Lu J D, Xia J X. Energy Fuels, 2007, 21: 2514
|
| [100] | Al-Shahrani F, Xiao T C, Llewellyn S A, Barri S, Jiang Z, Shi H H, Martinie G, Green M L H. Appl Catal B, 2007, 73: 311
|
| [101] | Jiang X, Li H M, Zhu W S, He L N, Shu H M, Lu J D. Fuel, 2009, 88: 431
|
| [102] | Bordoloi A, Lefebvre F, Halligudi S B. J Catal, 2007, 247: 166
|
| [103] | Kaleta W, Nowińska K. Chem Commun, 2001: 535
|
| [104] | Bowie J H, Williams D H, Lawesson S O, Madsen J, Nolde C, Schroll G. Tetrahedron, 1966, 22: 3515
|
| [105] | Duncan D C, Chambers R C, Hecht E, Hill C L. J Am Chem Soc, 1995, 117: 681
|
| [106] | Antonova N S, Carbó J J, Kortz U, Kholdeeva O A, Poblet J M. J Am Chem Soc, 2010, 132: 7488
|
| [107] | Kamata K, Hirano T, Ishimoto R, Mizuno N. Dalton Trans, 2010, 39: 5509
|
| [108] | Palomino J M, Tran D T, Hauser J L, Dong H, Oliver S R J. J Mater Chem A, 2014, 2: 14890
|
| [109] | Srivastava V C. RSC Adv, 2012, 2: 759
|
| [110] | Liu C H, He Q H, Zhang Z, Su Y Y, Xu R F, Hu B X. Chin J Chem, 2014, 32: 410
|
| [111] | Tang N F, Zhao X P, Jiang Z X, Li C. Chin J Catal (唐南方, 赵小平, 蒋宗轩, 李灿. 催化学报), 2014, 35: 1433
|
| [112] | Huang C P, Chen B H, Zhang J, Liu Z C, Li Y X. Energy Fuels, 2004, 18: 1862
|
| [113] | Ali S H, Hamad D M, Albusairi B H, Fahim M A. Energy Fuels, 2009, 23: 5986
|
| [114] | Xiong J, Zhu W S, Ding W J, Yang L, Chao Y H, Li H P, Zhu F X, Li H M. Ind Eng Chem Res, 2014, 53: 19895
|
| [115] | Stanislaus A, Marafi A, Rana M S. Catal Today, 2010, 153: 1
|
| [116] | Song C S. Catal Today, 2003, 86: 211
|
| [117] | Ma X L, Sakanishi K, Mochida I. Ind Eng Chem Res, 1994, 33: 218
|
| [118] | Ribeiro S, Barbosa A D S, Gomes A C, Pillinger M, Goncalves I S, Cunha-Silva L, Balula S S. Fuel Process Technol, 2013, 116: 350
|
| [119] | Xiao J, Song C S, Ma X L, Li Z. Ind Eng Chem Res, 2012, 51: 3436
|
| [120] | García-Gutiérrez J L, Laredo G C, García-Gutiérrez P, Jiménez-Cruz F. Fuel, 2014, 138: 118
|
| [121] | Zhu W S, Li H M, Jiang X, Yan Y S, Lu J D, Xia J X. Energy Fuels, 2007, 21: 2514
|
| [122] | Zhao D S, Sun Z M, Li F T, Liu R, Shan H D. Energy Fuels, 2008, 22: 3065
|
| [123] | Song H, Wan X, Dai M, Zhang J J, Li F, Song H L. Fuel Process Technol, 2013, 116: 52
|
| [124] | Derikvand P, Etemadifar Z, Biria D. Int Biodeter Biodegr, 2014, 86: 343
|
| [125] | Ban L L, Liu P, Ma C H, Dai B. Chin Chem Lett, 2013, 24: 755
|
| [126] | Chamack M, Mahjoub A R, Aghayan H. Chem Eng J, 2014, 255: 686
|
| [127] | Fang D W, Wang Q, Liu Y, Xia L X, Zang S L. Energy Fuels, 2014, 28: 6677
|
| [128] | Jiang Z X, Lü H Y, Zhang Y N, Li C. Chin J Catal (蒋宗轩, 吕宏缨, 张永娜, 李灿. 催化学报), 2011, 32: 707
|
| [129] | Zhang G F, Yu F L, Wang R. Petroleum Coal, 2009, 51: 196
|
| [130] | Campos-Martin J M, Capel-Sanchez M C, Perez-Presas P, Fierro J L G. J Chem Technol Biotechnol, 2010, 85: 879
|
| [131] | Zheng H W, Sun Z, Chen X L, Zhao Q, Wang X H, Jiang Z J. Appl Catal A, 2013, 467: 26
|
| [132] | Chan N Y, Lin T Y, Yen T F. Energy Fuels, 2008, 22: 3326
|
| [133] | Sundararaman R, Ma X L, Song C S. Ind Eng Chem Res, 2010, 49: 5561
|
| [134] | Xiao J, Wu L M, Wu Y, Liu B, Dai L, Li Z, Xia Q B, Xi H X. Appl Energy, 2014, 113: 78
|
| [135] | Abdalla Z E A, Li B S. Chem Eng J, 2012, 200-202: 113
|
| [136] | Te M, Fairbridge C, Ring Z. Appl Catal A, 2001, 219: 267
|
| [137] | Zhang J, Wang A J, Wang Y J, Wang H Y, Gui J Z. Chem Eng J, 2014, 245: 65
|
| [138] | Li C, Jiang Z X, Gao J B, Yang Y X, Wang S J, Tian F P, Sun F X, Sun X P, Ying P L, Han C R. Chem Eur J, 2004, 10: 2277
|
| [139] | Marme F, Coudurier G, Védrine J C. Microporous Mesoporous Mater, 1998, 22: 151
|
| [140] | Ishimoto R, Kamata K, Mizuno N. Angew Chem Int Ed, 2009, 48: 8900
|
| [141] | Hulea V, Fajula F, Bousquet J. J Catal, 2001, 198: 179
|
| [142] | Lü H Y, Gao J B, Jiang Z X, Yang Y X, Song B, Li C. Chem Commun, 2007: 150
|
| [143] | Blasco T, Corma A, Martínez A, Martínez-Escolano P. J Catal, 1998, 177: 306
|
| [144] | Lim M H, Blanford C F, Stein A. Chem Mater, 1998, 10: 467
|
| [145] | Xiong J, Zhu W S, Ding W J, Yang L, Zhang M, Jiang W, Zhao Z, Li H M. RSC Adv, 2015, 5: 16847
|
| [146] | Li H M, Zhu W S, Wang Y, Zhang J T, Lu J D, Yan Y S. Green Chem, 2009, 11: 810
|
| [147] | Ding W J, Zhu W S, Xiong J, Yang L, Wei A M, Zhang M, Li H M. Chem Eng J, 2015, 266: 213
|
| [148] | Zhu W S, Li H M, Jiang X, Yan Y S, Lu J D, Xia J X. Energy Fuels, 2007, 21: 2514
|
| [149] | Al-Shahrani F, Xiao T C, Llewellyn S A, Barri S, Jiang Z, Shi H H, Martinie G, Green M L H. Appl Catal B, 2007, 73: 311
|
| [150] | Jiang X, Li H M, Zhu W S, He L N, Shu H M, Lu J D. Fuel, 2009, 88: 431
|
| [151] | Bordoloi A, Lefebvre F, Halligudi S B. J Catal, 2007, 247: 166
|
| [152] | Kaleta W, Nowińska K. Chem Commun, 2001: 535
|
| [153] | Bowie J H, Williams D H, Lawesson S O, Madsen J, Nolde C, Schroll G. Tetrahedron, 1966, 22: 3515
|
| [154] | Duncan D C, Chambers R C, Hecht E, Hill C L. J Am Chem Soc, 1995, 117: 681
|
| [155] | Antonova N S, Carbó J J, Kortz U, Kholdeeva O A, Poblet J M. J Am Chem Soc, 2010, 132: 7488
|
| [156] | Kamata K, Hirano T, Ishimoto R, Mizuno N. Dalton Trans, 2010, 39: 5509
|
| [157] | Palomino J M, Tran D T, Hauser J L, Dong H, Oliver S R J. J Mater Chem A, 2014, 2: 14890
|
| [158] | Srivastava V C. RSC Adv, 2012, 2: 759
|
| [159] | Liu C H, He Q H, Zhang Z, Su Y Y, Xu R F, Hu B X. Chin J Chem, 2014, 32: 410
|
| [160] | Tang N F, Zhao X P, Jiang Z X, Li C. Chin J Catal (唐南方, 赵小平, 蒋宗轩, 李灿. 催化学报), 2014, 35: 1433
|
| [161] | Huang C P, Chen B H, Zhang J, Liu Z C, Li Y X. Energy Fuels, 2004, 18: 1862
|
| [162] | Ali S H, Hamad D M, Albusairi B H, Fahim M A. Energy Fuels, 2009, 23: 5986
|
| [163] | Xiong J, Zhu W S, Ding W J, Yang L, Chao Y H, Li H P, Zhu F X, Li H M. Ind Eng Chem Res, 2014, 53: 19895
|
| [164] | Campos-Martin J M, Capel-Sanchez M C, Perez-Presas P, Fierro J L G. J Chem Technol Biotechnol, 2010, 85: 879
|
| [165] | Zheng H W, Sun Z, Chen X L, Zhao Q, Wang X H, Jiang Z J. Appl Catal A, 2013, 467: 26
|
| [166] | Chan N Y, Lin T Y, Yen T F. Energy Fuels, 2008, 22: 3326
|
| [167] | Sundararaman R, Ma X L, Song C S. Ind Eng Chem Res, 2010, 49: 5561
|
| [168] | Xiao J, Wu L M, Wu Y, Liu B, Dai L, Li Z, Xia Q B, Xi H X. Appl Energy, 2014, 113: 78
|
| [169] | Abdalla Z E A, Li B S. Chem Eng J, 2012, 200-202: 113
|
| [170] | Te M, Fairbridge C, Ring Z. Appl Catal A, 2001, 219: 267
|
| [171] | Zhang J, Wang A J, Wang Y J, Wang H Y, Gui J Z. Chem Eng J, 2014, 245: 65
|
| [172] | Li C, Jiang Z X, Gao J B, Yang Y X, Wang S J, Tian F P, Sun F X, Sun X P, Ying P L, Han C R. Chem Eur J, 2004, 10: 2277
|
| [173] | Mei H, Mei B W, Yen T F. Fuel, 2003, 82: 405
|
| [174] | Wan M W, Yen T F. Appl Catal A, 2007, 319: 237
|
| [175] | Zhang M, Zhu W S, Xun S H, Li H M, Gu Q Q, Zhao Z, Wang Q. Chem Eng J, 2013, 220: 328
|
| [176] | Zhu W S, Wu P W, Yang L, Chang Y H, Chao Y H, Li H M, Jiang Y Q, Jiang W, Xun S H. Chem Eng J, 2013, 229: 250
|
| [177] | Shan J H, Chen L, Sun L B, Liu X Q. Energy Fuels, 2011, 25: 3093
|
| [178] | Zhu W S, Xu Y H, Li H M, Dai B L, Xu H, Wang C, Chao Y H, Liu H. Korean J Chem Eng, 2014, 31: 211
|
| [179] | Luo G Q, Kang L H, Zhu M Y, Dai B. Fuel Process Technol, 2014, 118: 20
|
| [180] | Zhu W S, Zhu G P, Li H M, Chao Y H, Zhang M, Du D L, Wang Q, Zhao Z. Fuel Process Technol, 2013, 106: 70
|
| [181] | Li B S, Ma W, Liu J J, Han C Y, Zuo S L, Li X F. Catal Commun, 2011, 13: 101
|
| [182] | Li J L, Hu B, Tan J J, Zhuang J Z. Transit Metal Chem, 2013, 38: 495
|
| [183] | Nowińska K, Kaleta W. Appl Catal A, 2000, 203: 91
|
| [184] | Verhoef M J, Kooyman P J, Peters J A, Van Bekkum H. Microporous Mesoporous Mater, 1999, 27: 365
|
| [185] | Roik N V, Belyakova L A. J Solid State Chem, 2014, 215: 284
|
| [186] | Corma A. Chem Rev, 1997, 97: 2373
|
| [187] | Johnson B J S, Stein A. Inorg Chem, 2001, 40: 801
|
| [188] | Marme F, Coudurier G, Védrine J C. Microporous Mesoporous Mater, 1998, 22: 151
|
| [189] | Ishimoto R, Kamata K, Mizuno N. Angew Chem Int Ed, 2009, 48: 8900
|
| [190] | Hulea V, Fajula F, Bousquet J. J Catal, 2001, 198: 179
|
| [191] | Lü H Y, Gao J B, Jiang Z X, Yang Y X, Song B, Li C. Chem Commun, 2007: 150
|
| [192] | Blasco T, Corma A, Martínez A, Martínez-Escolano P. J Catal, 1998, 177: 306
|
| [193] | Lim M H, Blanford C F, Stein A. Chem Mater, 1998, 10: 467
|
| [194] | Xiong J, Zhu W S, Ding W J, Yang L, Zhang M, Jiang W, Zhao Z, Li H M. RSC Adv, 2015, 5: 16847
|
| [195] | Li H M, Zhu W S, Wang Y, Zhang J T, Lu J D, Yan Y S. Green Chem, 2009, 11: 810
|
| [196] | Ding W J, Zhu W S, Xiong J, Yang L, Wei A M, Zhang M, Li H M. Chem Eng J, 2015, 266: 213
|
| [197] | Zhu W S, Li H M, Jiang X, Yan Y S, Lu J D, Xia J X. Energy Fuels, 2007, 21: 2514
|
| [198] | Al-Shahrani F, Xiao T C, Llewellyn S A, Barri S, Jiang Z, Shi H H, Martinie G, Green M L H. Appl Catal B, 2007, 73: 311
|
| [199] | Jiang X, Li H M, Zhu W S, He L N, Shu H M, Lu J D. Fuel, 2009, 88: 431
|
| [200] | Bordoloi A, Lefebvre F, Halligudi S B. J Catal, 2007, 247: 166
|
| [201] | Kaleta W, Nowińska K. Chem Commun, 2001: 535
|
| [202] | Bowie J H, Williams D H, Lawesson S O, Madsen J, Nolde C, Schroll G. Tetrahedron, 1966, 22: 3515
|
| [203] | Duncan D C, Chambers R C, Hecht E, Hill C L. J Am Chem Soc, 1995, 117: 681
|
| [204] | Antonova N S, Carbó J J, Kortz U, Kholdeeva O A, Poblet J M. J Am Chem Soc, 2010, 132: 7488
|
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