|
OALib Journal期刊
ISSN: 2333-9721
费用:99美元
|
|
|
|
可见光铋系光催化剂的研究进展
DOI: 10.1016/S1872-2067(14)60075-9, PP. 989-1007
Keywords: 光催化剂,含铋化合物,可见光活性
Abstract:
?当前工业发展导致了严重的能源和环境危机,光催化为这一难题提供了有效的解决方案.然而在实际应用中,传统氧化物光催化剂宽的带隙限制了它的可见光吸收,于是窄带隙光催化剂成为了研究的热点.其中铋系光催化剂以其高的可见光光催化活性引起了人们的广泛关注.因此本文介绍了铋系光催化剂的种类、制备、形貌、复合、性能等方面的研究现状,并展望了含铋可见光催化剂发展前景.
| [1] | Ai Z H, Ho W K, Lee S C. Appl Surf Sci, 2012, 263: 266
|
| [2] | Liu Y F, Ma X G, Yi X, Zhu Y F. Acta Phys-Chim Sin (刘艳芳, 马新国, 易欣, 朱永法. 物理化学学报), 2012, 28: 654
|
| [3] | Wei P Y, Yang Q L, Guo L. Prog Chem (魏平玉, 杨青林, 郭林. 化学进展), 2009, 21: 1734
|
| [4] | Xiao X, Hao R, Liang M, Zuo X X, Nan J M, Li L S, Zhang W D. J Hazard Mater, 2012, 233-234: 122
|
| [5] | Dai G P, Yu J G, Liu G. J Phys Chem C, 2011, 115: 7339
|
| [6] | Yu H G, Liu R, Wang X F, Wang P, Yu J G. Appl Catal B, 2012, 111-112: 326
|
| [7] | Wu D W, Li S, Chen Y Q, Gong M C, Zhang Q L, Liu K L, Wang Y L. Acta Phys-Chim Sin (吴大旺, 李硕, 陈耀强, 龚茂初, 张秋林, 刘康莲, 王玉林. 物理化学学报), 2010, 26: 3299
|
| [8] | Park H S, Lee H C, Leonard K C, Liu G J, Bard A J. ChemPhysChem, 2013, 14: 2277
|
| [9] | Maeda K, Teramura K, Lu D L, Takata T, Saito N, Inoue Y, Domen K. Nature, 2006, 440: 295
|
| [10] | Liu H, Yuan J, Shangguan W F. Chem J Chin Univ (刘恢, 袁坚, 上官文峰. 高等学校化学学报), 2008, 29: 1603
|
| [11] | Shannon R D, Waring R K. J Phys Chem Solids, 1985, 46: 325
|
| [12] | Liu Y Y, Son W J, Lu J B, Huang B B, Dai Y, Whangbo M H. Chem-Eur J, 2011, 17: 9342
|
| [13] | Wang J, Gao X M, Fu F, Zhang L P, Wu Y F. J Residuals Sci Technol, 2012, 9: 101
|
| [14] | Lei Y Q, Wang G H, Guo P R, Song H C. Appl Surf Sci, 2013, 279: 374
|
| [15] | Su M H, He C, Zhu L F, Sun Z J, Shan C, Zhang Q, Shu D, Qiu R L, Xiong Y. J Hazard Mater, 2012, 229-230: 72
|
| [16] | Yu J G, Jin J, Cheng B, Jaroniec M. J Mater Chem A, 2014, 2: 3407
|
| [17] | Liu X J, Pan L K, Lv T, Sun Z, Sun C Q. J Colloid Interf Sci, 2013, 408: 145
|
| [18] | Cui Z K, Liu J, Zeng D W, Liu H W, Xie C S. J Am Ceram Soc, 2010, 93: 1479
|
| [19] | Tang M H, Shu W, Yang F, Zhang J, Dong G J, Hou J W. Nanotechnology, 2009, 20: 385602
|
| [20] | Dai G P, Liu S Q, Peng R, Luo T X. Acta Phys-Chim Sin (戴高鹏, 刘素芹, 彭荣, 罗天雄. 物理化学学报), 2012, 28: 2169
|
| [21] | Rowan L, Aidan W. Carbon, 2011, 49: 741
|
| [22] | Low J X, Yu J G, Li Q, Cheng B. Phys Chem Chem Phys, 2014, 16: 1111
|
| [23] | Fujishima A, Zhang X T, Tryk D A. Surf Sci Rep, 2008, 63: 515
|
| [24] | Fujishima A, Honda K. Nature, 1972, 238: 37
|
| [25] | Jiang Y, Zhang P, Liu Z W, Xu F. Mater Chem Phys, 2006, 99: 498
|
| [26] | Jin J, Yu J G, Liu G, Wong P K. J Mater Chem A, 2013, 1: 10927
|
| [27] | Yu J G, Li Q, Liu S W, Jaroniec M. Chem Eur J, 2013, 19: 2433
|
| [28] | Asahi R, Morikawa T, Ohwaki T, Aoki K, Taga Y. Science, 2001, 293: 269
|
| [29] | Wang X J, Liu Y F, Hu Z H, Chen Y J, Liu W, Zhao G H. J Hazard Mater, 2009, 169: 1061
|
| [30] | Yu J G, Ran J R. Energy Environ Sci, 2011, 4: 1364
|
| [31] | Carlsson J M, Hellsing B, Domingos H S, Bristowe P D. Phys Rev B, 2002, 65: 205122
|
| [32] | Zhang L S, Wang W Z, Yang J, Chen Z G, Zhang W Q, Zhou L, Liu S W. Appl Catal A, 2006, 308: 105
|
| [33] | Xiang Q J, Yu J G, Wong P K. J Colloid Interf Sci, 2011, 357: 163
|
| [34] | Yu J G, Xiong J F, Cheng B, Yu Y, Wang J B. J Solid State Chem, 2005, 178: 1968
|
| [35] | Klisinska A, Mamede A S, Gaigneaux E M. Catal Today, 2007, 128: 145
|
| [36] | Wang X, Gu F, Li L, Fang G L, Wang X. Mater Res Bull, 2013, 48: 3761
|
| [37] | Li H H, Li K W, Wang H. Chin J Inor Chem (李红花, 李坤威, 汪浩, 无机化学学报), 2010, 26: 138
|
| [38] | Tian G H, Chen Y J, Zhou W, Pan K, Dong Y, Tian C, Fu H. J Mater Chem, 2011, 21: 887
|
| [39] | Zhang L L, Long J X, Pan W W, Zhou S Y, Zhu J W, Zhao Y J, Wang X, Cao G Z. Mater Chem Phys, 2012, 136: 897
|
| [40] | Madhusudan P, Kumar M V, Ishigaki T, Toda K, Uematsu K, Sato M. Environ Sci Pollut Res, 2013, 20: 6638
|
| [41] | Chen L, Alarcón-Lladó E, Hettick M, Sharp I D, Lin Y J, Javey A, Ager J W. J Phys Chem C, 2013, 117: 21635
|
| [42] | Liu S W, Yin K, Ren W S, Cheng B, Yu J G. J Mater Chem, 2012, 22: 17759
|
| [43] | Chen S F, Cao Z S, Fu X L. Mater Chem Phys, 2013, 142: 748
|
| [44] | Zhang G K, Li M, Yu S J, Zhang S M, Huang B B, Yu J G. J Colloid Interf Sci, 2010, 345: 467
|
| [45] | He C H, Gu M Y. Scripta Mater, 2006, 55: 481
|
| [46] | Zhang K L, Liu C M, Huang F Q, Zheng C, Wang W D. Appl Catal B, 2006, 68: 125
|
| [47] | Shenawi-Khalil S, Uvarov V, Kritsman Y, Menes E, Popov I, Sasson Y. Catal Commun, 2011, 12: 1136
|
| [48] | Pare B, Sarwan B, Jonnalagadda S B. Appl Surf Sci, 2011, 258: 247
|
| [49] | Shi Z Q, Wang Y, Fan C M, Wang Y F, Ding G Y. Trans Nonferrous Met Soc China, 2011, 21: 2254
|
| [50] | Li Y Y, Liu J P, Jiang J, Yu J G. Dalton Trans, 2011, 40: 6632
|
| [51] | Hao R, Xiao X, Zuo X X, Nan J M, Zhang W D. J Hazard Mater, 2012, 209-210: 137
|
| [52] | Lin X, Shan Z, Li K, Wang W, Yang J, Huang F. Solid State Sci, 2007, 9: 944
|
| [53] | Duan F, Zhang Q, Wei Q F, Shi D J, Chen M Q. Prog Chem (段芳, 张琴, 魏取福, 施冬健, 陈明清. 化学进展), 2014, 26: 30
|
| [54] | Yu H T, Quan X. Prog Chem (于洪涛, 全燮. 化学进展), 2009, 21: 406
|
| [55] | Liu C, Tang J Y, Chen H M, Liu B, Yang P D. Nano Lett, 2013, 13: 2989
|
| [56] | Prekajski M, Fruth V, Andronescu C, Trandafilovic L V, Pantic J, Kremenovic A, Matovic B. J Alloy Compd, 2013, 578: 26
|
| [57] | Politova E D, Fortalnova E A, Kaleva G M, Mosunov A V, Safronenko M G, Venskovskii N U. Solid State Ionics, 2011, 192: 248
|
| [58] | Wang Q Z, Liu H, Yuan J, Shangguan W F. Chin J Catal (王其召, 刘恢, 袁坚, 上官文峰. 催化学报), 2009, 30: 565
|
| [59] | Ren K X, Liu J, Liang J, Zhang K, Zheng X, Luo H D, Huang Y B, Liu P J, Yu X B. Dalton Trans, 2013, 42: 9706
|
| [60] | Xiang Q J, Yu J G. J Phys Chem Lett, 2013, 4: 753
|
| [61] | Fu Y S, Sun X Q, Wang X. Mater Chem Phys, 2011, 131: 325
|
| [62] | Xiang Q J, Yu J G, Jaroniec M. Chem Soc Rev, 2012, 41: 782
|
| [63] | Madhusudan P, Yu J G, Wang W G, Cheng B, Liu G. Dalton Trans, 2012, 41: 14345
|
| [64] | Gao E P, Wang W Z, Shang M, Xu J H. Phys Chem Chem Phys, 2011, 13: 2887
|
| [65] | Liu Z, Xu W C, Fang J Z, Xu X X, Wu S X, Zhu X M, Chen Z H. Appl Surf Sci, 2012, 259: 441
|
| [66] | Wang Y N, Deng K J, Zhang L Z. J Phys Chem C, 2011, 115: 14300
|
| [67] | Xie D, Su Q M, Zhang J, Du G H, Xu B S. J Mater Sci, 2014, 49: 218
|
| [68] | Zhao G, Liu S W, Lu Q F, Xu F X, Sun H Y. J Alloy Compd, 2013, 578: 12
|
| [69] | Xia J X, Yin S, Li H M, Xu H, Yan Y S, Zhang Q. Langmuir, 2011, 27: 1200
|
| [70] | Deng C H, Guan H M. Mater Lett, 2013, 107: 119
|
| [71] | Zhang M Y, Shao C L, Zhang P, Su C Y, Zhang X, Liang P P, Sun Y Y, Liu Y C. J Hazard Mater, 2012, 225-226: 155
|
| [72] | Wang Y, Zhao J Z, Zhu Y C, Zhou B, Zhao X, Wang Z Z. Colloid Surf A, 2013, 434: 296
|
| [73] | Sun J X, Chen G, Wu J Z, Dong H J, Xiong G H. Appl Catal B, 2013, 132-133: 304
|
| [74] | Chen Y, Liu G C, Li Z Y, Huang S P, Zhou K C. Chin J Catal (陈渊, 刘国聪, 李志友, 黄苏萍, 周科朝. 催化学报), 2011, 32: 1631
|
| [75] | Wu Y C, Chaing Y C, Huang C Y, Wang S F, Yang H Y. Dyes Pigments, 98 2013, 98: 25
|
| [76] | Zhang L W, Xu T G, Zhao X, Zhu Y F. Appl Catal B, 2010, 98: 138
|
| [77] | Zhang D, Li J, Wang Q G, Wu Q S. J Mater Chem A, 2013, 1: 8622
|
| [78] | Hirano K, Suzuki E, Ishikawa A, Moroi T, Shiroishi H, Kaneko M. J Photochem Photobiol A, 2000, 136: 157
|
| [79] | Blasse G, Dirksen G J, de Korte P H M. Mater Res Bull, 1981, 16: 991
|
| [80] | Ke D N, Peng T Y, Ma L, Cai P, Jiang P. Appl Catal A, 2008, 350: 111
|
| [81] | Zhang Z, Wang W, Shang M, Yin W. J Hazard Mater, 2010, 177: 1013
|
| [82] | Li E J, Chen L, Zhang Q, Li W H, Yin S F. Prog Chem (李二军, 陈浪, 章强, 李文华, 尹双凤. 化学进展), 2010, 22: 2282
|
| [83] | Zhang L P, Yuan S, Hu F, Chang X F. Prog Chem (张莉平, 袁实, 胡峰, 常晓峰. 化学进展), 2010, 22: 1729
|
| [84] | Takei T, Haramoto R, Dong Q, Kumada N, Yonesaki Y, Kinomura N, Mano T, Nishimoto S, Kameshima Y, Miyake M. J Solid State Chem, 2011, 184: 2017
|
| [85] | Li Y J, Cao T P, Shao C L, Wang C H. J Inorg Mater (李跃军, 曹铁平, 邵长路, 王长华. 无机材料学报), 2012, 27: 687
|
| [86] | Kim H, Jin C, Park S, Lee W I, Chin I J, Lee C. Chem Eng J, 2013, 215-216: 151
|
| [87] | Nogueira A E, Longo E, Leite E R, Camargo E R. J Colloid Interf Sci, 2014, 415: 89
|
| [88] | la Cruz A M, Alfaro S O, Cuellar E L, Mendez U O. Catal Today, 2007, 129: 194
|
| [89] | García-Pérez U M, Sepúlveda-Guzmán S, la Cruz A M. Solid State Sci, 2012, 14: 293
|
| [90] | Zheng Y, Duan F, Chen M Q, Xie Y. J Mol Catal A, 2010, 317: 34
|
| [91] | Madhusudan P, Zhang J, Cheng B, Liu G. CrystEngComm, 2013, 15: 231
|
| [92] | Su W Y, Wang J, Huang Y X, Wang W J, Wu L, Wang X X, Liu P. Scripta Mater, 2010, 62: 345
|
| [93] | Wang W D, Huang F Q, Lin X P. Scripta Mater, 2007, 56: 669
|
| [94] | Zhang X, Ai Z H, Jia F L, Zhang L Z. J Phys Chem C, 2008, 112: 747
|
| [95] | Wang W D, Huang F Q, Lin X P, Yang J H. Catal Commun, 2008, 9: 8
|
| [96] | Kako T, Zou Z, Katagir I M, Ye J H. Chem Mater, 2007, 19: 198
|
| [97] | Ramachandran R, Sathiya M, Ramesha K, Prakash A S, Madras G, Shukla A K. J Chem Sci, 2011, 123: 517
|
| [98] | Yu X J, Zhou J Y, Wang Z P, Cai W. J Photochem Photobiol B, 2010, 101: 265
|
| [99] | Drache M, Roussel P, Wignacourt J P. Chem Rev, 2007, 107: 80
|
| [100] | Zhang L W, Zhu Y F. Catal Sci Technol, 2012, 2: 694
|
| [101] | Gurunathan K. Int J Hydrogen Energy, 2004, 29: 933
|
| [102] | Xie J M, Lu X M, Chen M, Zhao G Q, Song Y Z, Lu S S. Dyes Pigments, 2008, 77: 43
|
| [103] | Huang L, Li L P, Yan T J, Li G S. Chin J Struct Chem (黄磊, 李莉萍, 颜廷红, 李广社. 结构化学), 2009, 28: 1458
|
| [104] | Chen F J, Cao Y L, Jia D Z. J Colloid Interf Sci, 2013, 404: 110
|
| [105] | Bao H F, Cui X Q, Li C M, Gan Y, Zhang J, Guo J. J Phys Chem C, 2007, 111: 12279
|
| [106] | Zhu X Q, Zhang J L, Chen F. Appl Catal B, 2011, 102: 316
|
| [107] | Zhou A Q, Xu X H, Yao W F, Zeng F L, Song B Q. Chin J Chem Phys (周爱秋, 许效红, 姚伟峰, 曾凡亮, 宋邦强. 化学物理学报), 2004, 17: 305
|
| [108] | Yang Z, Fan H Q, Wang X, Long C B. J Phys Chem Solids, 2013, 74: 1739
|
| [109] | Li Y Y, Dang L Y, Han L F, Li P P, Wang J S, Li Z J. J Mol Catal A, 2013, 379: 146
|
| [110] | Lin T, Chen Y Q, Wang H Y, Liu X H, Yang Y C. Chin J Catal (林涛, 陈耀强, 王和义, 刘秀华, 杨宇川. 催化学报), 2009, 30: 873
|
| [111] | Wu L, Bi J H, Li Z H, Wang X X, Fu X Z. Catal Today, 2008, 131: 15
|
| [112] | Yan Y, Wu Y F, Yan Y T, Guan W S, Shi W D. J Phys Chem C, 2013, 117: 20017
|
| [113] | Hu S P, Xu C Y, Zhen L. Mater Lett, 2013, 95: 117
|
| [114] | Bi J H, Wu L, Li J, Li Z H, Wang X X, Fu X Z. Acta Mater, 2007, 55: 4699
|
| [115] | Man Y, Zong R L, Zhu Y F. Acta Phys-Chim Sin (满毅, 宗瑞隆, 朱永法. 物理化学学报), 2007, 23: 1671
|
| [116] | Cuellar E L, Cruz A M L, Rodriguez K H L, Mendez U O. Catal Today, 2011, 166: 140
|
| [117] | Wang X, Chang L, Wang J, Song N, Liu H, Wan X. Micro Nano Lett, 2012, 7: 1129
|
| [118] | Wang W Z, Shang M, Yin W Z, Ren J, Zhou L. J Inorg Mater (王文中, 尚萌, 尹文宗, 任佳, 周林. 无机材料学报), 2012, 27: 11
|
| [119] | Zhao Y, Xie Y, Zhu X, Yan S, Wang S X. Chem-Eur J, 2008, 14: 1601
|
| [120] | Ge L, Zhang X H. J Inorg Mater (戈磊, 张宪华. 无机材料学报), 2009, 24: 453
|
| [121] | Madhusudan P, Ran J R, Zhang J, Yu J G, Liu G. Appl Catal B, 2011, 110: 286
|
| [122] | Liu J J, Chen S F, Liu Q Z, Zhu Y F, Zhang J F. Chem Phys Lett, 2013, 572: 101
|
| [123] | Tang J W, Zou Z G, Ye J H. J Phys Chem C, 2007, 111: 12779
|
| [124] | Chang X F, Huang J, Cheng C, Sha W, Li X, Ji G B, Deng S B, Yu G. J Hazard Mater, 2010, 173: 765
|
| [125] | Yu K, Yang S G, Boyd S A, Chen H Z, Sun C. J Hazard Mater, 2011, 197: 88
|
| [126] | Grice J D. Can Mineral, 2002, 40: 693
|
| [127] | Dong F, Ho W K, Lee S C, Wu Z B, Fu M, Zou S C, Huang Y. J Mater Chem, 2011, 21: 12428
|
Full-Text
|
|
Contact Us
service@oalib.com QQ:3279437679 
WhatsApp +8615387084133
|
|
