English
往期目录
新闻公告
More
化学进展 2009, Vol. 21 Issue (0203): 406-419 前一篇   后一篇

• 环境化学专辑 •

纳米异质结光催化材料在环境污染控制领域的研究进展*

于洪涛;全燮**   

  1. (大连理工大学环境与生命学院工业生态与环境工程教育部重点实验室 大连116024)
  • 收稿日期:2008-11-03 出版日期:2009-03-24 发布日期:2009-04-03
  • 通讯作者: 全燮 E-mail:quanxie@dlut.edu.cn
下载PDF ( 6067 ) 引用
导出

Nano-Heterojunction Photocatalytic Materials in Environmental Pollution Controlling

Yu Hongtao; Quan Xie**   

  1. (Key Laboratory of Industrial Ecology and Environmental Engineering of Ministry of Education , School of Environmental and Biological Science and Technology , Dalian University of Technology , Dalian 116024 , China)
  • Received:2008-11-03 Online:2009-03-24 Published:2009-04-03
  • Contact: Quan Xie E-mail:quanxie@dlut.edu.cn

纳米异质结结合了纳米材料和异质结的优点,在许多领域得到广泛研究。在环境污染控制领域,由于能够克服TiO2光催化剂的量子效率低和不能有效利用可见光等缺点,纳米异质结具有潜在的应用价值。本文首先介绍了与污染控制有关的异质结的基本理论,包括内建电场对光致电荷分离的驱动作用及其作用范围,光照方式、上层半导体厚度、能带和构型对异质结电荷分离方式的影响。然后总结了纳米pn结、nn结、肖特基结、半导体与碳材料构成的纳米异质结光催化材料在环境污染控制领域的进展,并对其发展趋势作了展望。

关键词: 异质结, 能带, 电荷分离机理, 光催化

Nano-heterojunctions, which integrate the advantages of nano-materials and heterojunctions, have attracted wide interests in many areas. In environmental pollution controlling area, nano-heterojunctions processes the potential application, because they can overcome the two obstacles of TiO2 photocatalyst: the dissatisfactory quantum efficiency and the neglectable utilization of visible light. This review introduces the basic mechanism of nano-heterojunction related to environmental pollution controlling, including the driving force of inner electric field to photogenerated charge separation and its active region, the effect of illumination, the thickness of top semiconductor, energy bands and structure type on photogenerated-charge-separation mode of heterojunction. The progress of pn junction, nn junction, Schottky junction, and heterojunctions of semiconductor with carbon materials in environmental pollution controlling is summarized. The future developing perspectives are also presented.

Contents
1 Introduction
2 The mechanism of heterojunction in photocatalysis
2.1 Inner electric field and its dominative region
2.2 Transfer of photogenerated charges
2.3 Illumination
2.4 The demands for energy bands of heterojunction photocatalysts
2.5 Structure types
3 Heterojunction photocatalysts of two semiconductors
3.1 The progress of heterojunctions of TiO2 and p-type semiconductor
3.2 Heterojunctions of anatase and rutile or brookite
3.3 Heterojunction of TiO2 and N-doped TiO2
3.4 Heterojunctions of TiO2 and WO3
3.5 Heterojunctions of TiO2 and other semiconductor
3.6 Heterojunction of other semiconductors
4 Schottky junctions
5 Heterojunctions of semiconductor and carbon materials
6 Other heterojunctions photocatalysts
7 Prospect

Key words: heterojunction, energy bands, mechanism of photogenerated charge seperation, photocatalysis

中图分类号: 

()

[ 1 ]  Fu L , Liu Z, Liu Y, et al . Adv. Mater. , 2005 , 17 (2) : 217 —221
[ 2 ]  Cassell A M, Li J , Stevens R M D , et al . Appl . Phys. Lett . ,2004 , 85 (12) : 2364 —2366
[ 3 ]  Fu L , Liu Z, Liu Y, et al . Adv. Mater. , 2004 , 16 (4) : 350 —352
[ 4 ]  Liao L , Liu K, Wang W, et al . J . Am. Chem. Soc. , 2007 , 129 :9562 —9563
[ 5 ]  Iimori H , Yamane S , Kitamura T, et al . J . Phys. Chem. C , 2008 ,112 : 11586 —11590
[ 6 ]  Liang X, Wang L , Ma X, et al . Appl . Phys. Lett . , 2007 , 90 :art . no. 161123
[ 7 ]  Koizumi S , Watanabe K, Hasegawa M, et al . Science , 2001 , 292 :1899 —1901
[ 8 ]  Bernards D A , Flores-Torres S , Abrun H D , et al . Science , 2006 ,313 : 1416 —1419
[ 9 ]  Lee S H , Son H K, Kim S J , et al . Phys. Stat . Sol . (a) , 2004 ,201 (12) : 2726 —2729
[10 ]  Garnett E C , Yang P. J . Am. Chem. Soc. , 2008 , 130 : 9224 —9225
[11 ]  Peng K, Xu Y, Wu Y, et al . Small , 2005 , 1 (11) : 1062 —1067
[12 ]  Paulose M, Shankar K, Varghese O K, et al . J . Phys. D: Appl .Phys. , 2006 , 39 : 2498 —2503
[13 ]  Luther J M, Law M, Beard M C , et al . Nano Lett . , 2008 , 8 (10) :3488 —3492
[14 ]  Zong X, Yan H , Wu G, et al . J . Am. Chem. Soc. , 2008 , 130 :7176 —7177
[15 ]  Ou Y, Lin J , Fang S , et al . Chem. Phys. Lett . , 2006 , 429 :199 —203
[16 ]  Wang D , Zou Z, Ye J . Chem. Mater. , 2005 , 17 : 3255 —3261
[17 ]  Li Q , Chen L , Lu G. J . Phys. Chem. C , 2007 , 111 : 11494 —11499
[18 ]  Xue X, Xing L , Chen Y, et al . J . Phys. Chem. C , 2008 , 112 :12157 —12160
[19 ]  Kuang Q , Lao C S , Li Z, et al . J . Phys. Chem. C , 2008 , 112 :11539 —11544
[20 ]  Flatt A K, Chen B , Tour J M. J . Am. Chem. Soc. , 2005 , 127 :8918 —8919
[21 ]  Zhang X, McGill S A , Xiong P. J . Am. Chem. Soc. , 2007 , 129 :14470 —14474
[22 ]  Tzolov M B , Kuo T F , Straus D A , et al . J . Phys. Chem. C ,2007 , 111 : 5800 —5804
[23 ]  Patolsky F , Timko B P , Yu G, et al . Science , 2006 , 313 : 1100 —1104
[24 ]  Liu R , Lee S B. J . Am. Chem. Soc. , 2008 , 130 : 2942 —2943
[25 ]  Batabyal S K, Vittal J J . Chem. Mater. , 2008 , 20 : 5845 —5850
[26 ]  Robert D. Catal . Today , 2007 , 122 : 20 —26
[27 ]  Li G, Gray KA. Chem. Phys. , 2007 , 339 : 173 —187
[28 ]  吴欢文(Wu H W) , 张宁(Zhang N) , 钟金莲(Zhong J L) 等. 化工进展( Chemical Industry and Engineering Progress) , 2007 , 26(12) : 1669 —1674
[29 ]  崔玉民(Cui YM) . 贵金属(PreciousMetals) , 2007 , 28 (3) : 62 —65
[30 ]  刘恩科(Liu E K) , 朱秉升(Zhu B S) , 罗晋升(Luo J S) . 半导体物理学( Semiconductor Physics ) . 北京: 电子工业出版社(Beijing : Publishing House of Electronics Industry) , 2003. 182
[31 ]  虞丽生(Yu L S) . 半导体异质结物理( Physics of Semiconductor Heterojunction) . 北京: 科学出版社(Beijing : Science Press) ,2006. 245
[32 ]  LongM, Cai W, Cai J , et al . J . Phys. Chem. B , 2006 , 110 :20211 —20216
[33 ]  Arai T, Yanagida M, Konishi Y, Sayama K, et al . J . Phys. Chem.C , 2007 , 111 : 7574 —7577
[34 ]  刘恩科(Liu E K) , 朱秉升(Zhu B S) , 罗晋升(Luo J S) . 半导体物理学( Semiconductor Physics ) . 北京: 电子工业出版社(Beijing : Publishing House of Electronics Industry) , 2003. 216
[35 ]  Chen S , Zhang S , Liu W, et al . J . Hazard. Mater. , 2008 , 155 :320 —326
[36 ]  Waldner G, Kr?s J . Electrochim. Acta , 2005 , 50 : 4498 —4504
[37 ]  Yu H , Quan X, Chen S , et al . J . Photoch. Photobio. A: Chem. ,2008 , 200 : 301 —306
[38 ]  Takahashi M, Tsukigi K, Uchino T, et al . Thin Solid Films , 2001 ,388 : 231 —236
[39 ]  Fujishima A , Rao T N , Tryk D A. J . Photoch. Photobio. C:Photoch. Rev. , 2000 , 1 : 1 —21
[40 ]  Bessekhouad Y, Robert D , Weber J V. Catal . Today , 2005 , 101 :315 —321
[41 ]  Bessekhouad Y, Robert D , Weber J V. J . Photoch. Photobio. A:Chem. , 2004 , 163 : 569 —580
[42 ]  Brahimi R , Bessekhouad Y, Bouguelia A , et al . J . Photoch.Photobio. A: Chem. , 2008 , 194 : 173 —180
[43 ]  Biswas S , Hossain M F , Takahashi T, et al . Phys. Stat . Sol . (a) ,2008 , 205 (8) : 2028 —2032
[44 ]  Jang J S , Kim H G, Joshi U A , et al . Int . J . Hydrogen Energ. ,2008 , 33 : 5975 —5980
[45 ]  Zhang Y G, Ma L L , Li J L , Yu Y, Environ. Sci . Technol . , 2007 ,41 : 6264 —6269
[46 ]  Lin C Y, Fang Y K, Kuo C H , et al . Appl . Surf . Sci . , 2006 ,253 : 898 —903
[47 ]  Chen S , Zhao W, Liu W, et al . Appl . Surf . Sci . , 2008 , 255 :2478 —2484
[48 ]  Zachariah A , Baiju K V , Shukla S , et al . J . Phys. Chem. C ,2008 , 112 : 11345 —11356
[49 ]  Sun B , Vorontsov A V , Smirniotis P G. Langmuir , 2003 , 19 :3151 —3156
[50 ]  Ozawa T, Iwasaki M, Tada H , et al . J . Colloid Interf . Sci . , 2005 ,281 : 510 —513
[51 ]  Ardizzone S , Bianchi CL , Cappelletti G, et al . J . Phys. Chem. C ,2007 , 111 : 13222 —13231
[52 ]  Kawahara T, Konishi Y, Tada H , et al . Angew. Chem. Int . Ed. ,2002 , 41 (15) : 2811 —2813
[53 ]  Liu Z, Zhang X, Nishimoto S , Fujishima A , et al . Langmuir , 2007 ,23 : 10916 —10919
[54 ]  Jing L , Li S , Song S , et al . Sol . Energ. Mat . Sol . C , 2008 , 92 :1030 —1036
[55 ]  Kang I C , Zhang Q , Yin S , et al . Environ. Sci . Technol . , 2008 ,42 : 3622 —3626
[56 ]  Yang H , Shi R , Zhang K, et al . J . Alloy Compd. , 2005 , 398 :200 —202
[57 ]  Cui Y. Rare Mater. , 2006 , 25 (6) : 649 —653
[58 ]  Shinguu H , Bhuiyan M M H , Ikegami T, et al . Thin Solid Films ,2006 , 506P507 : 111 —114
[59 ]  Chen S , Chen L , Gao S , et al . Powder Technol . , 2005 , 160 :198 —202
[60 ]  Akurati K K, Vital A , Dellemann J P , et al . Appl . Catal . B :Environ. , 2008 , 79 : 53 —62
[61 ]  Ke D , Liu H , Peng T, et al . Mater. Lett . , 2008 , 62 : 447 —450
[62 ]  Gao B , Ma Y, Cao Y, et al . J . Phys. Chem. B , 2006 , 110 :14391 —14397
[63 ]  Tatsuma T, Saitoh S , Ngaotrakanwiwat P , et al . Langmuir , 2002 ,18 : 7777 —7779
[64 ]  Georgieva J , Armyanov S , Valova E , et al . Electrochem.Commun. , 2007 , 9 : 365 —370
[65 ]  Xiao M, Wang L , Huang X, et al . J . Alloy Compd. , 2008 , 470 :486 —491
[66 ]  Skorb E V , Ustinovich E A , Kulak A I , et al . J . Photoch.Photobio. A: Chem. , 2008 , 193 : 97 —102
[67 ]  尚静(Shang J ) , 谢绍东(Xie S D) , 刘建国(Liu J G) . 化学进展(Progress in Chemistry) , 2005 , 17 (6) : 1012 —1018
[68 ]  Ye F X, Tsumura T, Nakata K, et al . Mater. Sci . Eng. B , 2008 ,148 : 154 —161
[69 ]  Gao B , Kim Y J , Chakraborty A K, et al . Appl . Catal . B :Environ. , 2008 , 83 : 202 —207
[70 ]  Xiao G, Wang X, Li D , Fu X Z. J . Photoch. Photobio. A:Chem. , 2008 , 193 : 213 —221
[71 ]  Huang T, Lin X, Xing J , et al . Mater. Sci . Eng. B , 2007 , 141 :49 —54
[72 ]  Chang W K, Rao K K, Kuo H C , et al . Appl . Catal . A: Gen. ,2007 , 321 : 1 —6
[73 ]  Nayak J , Sahu S N , Kasuya J , et al . Appl . Surf . Sci . , 2008 , 254 :7215 —7218
[74 ]  Wang C , Wang X, Xu B Q , et al . J . Photoch. Photobio. A:Chem. , 2004 , 168 : 47 —52
[75 ]  Lin X, Xing J , Wang W, et al . J . Phys. Chem. C , 2007 , 111 :18288 —18293
[76 ]  Cui Y, Sun W. Rare Mater. , 2006 , 25 (1) : 138 —143
[77 ]  Xia H L , Zhang H S , Zhang T, et al . J . Environ. Sci . , 2007 , 19 :1141 —1145
[78 ]  Hu X, Hu C , Qu J . Appl . Catal . B : Environ. , 2006 , 69 : 16 —23
[79 ]  Li D , Haneda H. J . Photoch. Photobio. A: Chem. , 2003 , 160 :203 —212
[80 ]  Tiwari V , Jiang J , Sethi V , et al . Appl . Catal . A: Gen. , 2008 ,345 : 241 —245
[81 ]  Zhu B , Li K, Zhou J , et al . Catal . Commun. , 2008 , 9 : 2323 —2326
[82 ]  SáJ , Arteaga GD , Daley R A , et al . J . Phys. Chem. B , 2006 ,110 : 17090 —17095
[83 ]  Li Q , Xie R , Mintz E A , et al . J . Am. Ceram. Soc. , 2007 , 90(12) : 3863 —3868
[84 ]  Chen P , Zhang X G. Clean-Soil Air Water , 2008 , 36 (5P6) : 507 —511
[85 ]  Ge L. J . Mole. Catal . A: Chem. , 2008 , 282 : 62 —66
[86 ]  Chen Y, Crittenden J C , Hackney S , et al . Environ. Sci .Technol . , 2005 , 39 : 1201 —1208
[87 ]  Sarkar J , John V T, He J , et al . Chem. Mater. , 2008 , 20 : 5301 —5306
[88 ]  Costi R , Saunders A E , Elmalem E , et al . Nano Lett . , 2008 , 8(2) : 637 —641
[89 ]  Tian B , Zhang J , Tong T, et al . Appl . Catal . B : Environ. , 2008 ,79 : 394 —401
[90 ]  Lee MS , Hong S S , Mohseni M. J . Mol . Catal . A: Chem. , 2005 ,242 : 135 —140
[91 ]  Zhang Y, Mu J . J . Colloid Interf . Sci . , 2007 , 309 : 478 —484
[92 ]  Sobana N , Muruganadham M, Swaminathan M. J . Mol . Catal . A:Chem. , 2006 , 258 : 124 —132
[93 ]  Cozzoli P D , Fanizza E , Comparelli R , et al . J . Phys. Chem. B ,2004 , 108 : 9623 —9630
[94 ]  Rengaraj S , Venkataraj S , Yeon J W, et al . Appl . Catal . B :Environ. , 2007 , 77 : 157 —165
[95 ]  Subramanian V , Wolf E , Kamat P V. J . Phys. Chem. B , 2001 ,105 : 11439 —11446
[96 ]  Irie H , Miura S , Kamiya K, et al . Chem. Phys. Lett . , 2008 , 457 :202 —205
[97 ]  Bellardita M, Addamo M, Paola A D , et al . Chem. Phys. , 2007 ,339 : 94 —103
[98 ]  Dawson A , Kamat P V. J . Phys. Chem. B , 2001 , 105 : 960 —966
[99 ]  Tian Y, Tatsuma T. J . Am. Chem. Soc. , 2005 , 127 : 7632 —7637
[100 ] Yang L , Yang W, Cai Q. J . Phys. Chem. C , 2007 , 111 : 16613 —16617
[101 ] Paramasivam I , Macak J M, Schmuki P. Electrochem. Commun. ,2008 , 10 : 71 —75
[102 ] Wu J J , Tseng C H. Appl . Catal . B : Environ. , 2006 , 66 : 51 —57
[103 ] Chen H , Chen S , Quan X, et al . J . Phys. Chem. C , 2008 , 112 :9285 —9290
[104 ] Hirakawa T, Kamat P V. Langmuir , 2004 , 20 (14) : 5645 —5647
[105 ] Hirakawa T, Kamat P V. J . Am. Chem. Soc. , 2005 , 127 : 3928 —3934
[106 ] Subramanian V , Wolf E E , Kamat P V. J . Am. Chem. Soc. ,2004 , 126 : 4943 —4950
[107 ] Subramanian V , Wolf E E , Kamat P V. Langmuir , 2003 , 19 :469 —474
[108 ] Zheng Y, Chen C , Zhan Y, et al . J . Phys. Chem. C , 2008 , 112 :10773 —10777
[109 ] Shan Z, Wu J , Xu F , et al . J . Phys. Chem. C , 2008 , 112 :15423 —15428
[110 ] Silva L A , Ryu S Y, Choi J , et al . J . Phys. Chem. C , 2008 , 112 :12069 —12073
[111 ] Subramanian V , Roeder R K, Wolf E E. Ind. Eng. Chem. Res. ,2006 , 45 : 2187 —2193
[112 ] Cao X, Gu L , Zhuge L , et al . Adv. Funct . Mater. , 2006 , 16 :896 —902
[113 ] Ge L. Mater. Chem. Phys. , 2008 , 107 : 465 —470
[114 ] Zhang X, Zhang F , Chan K Y. Mater. Chem. Phys. , 2006 , 97 :384 —389
[115 ] Sung-Suh H M, Choi J R , Hah H J , Koo S M, et al . J . Photoch.Photobio. A: Chem. , 2004 , 163 : 37 —44
[116 ] Naoi K, Ohko Y, Tatsuma T. J . Am. Chem. Soc. , 2004 , 126 :3664 —3668
[117 ] Seery M K, George R , Floris P , et al . J . Photoch. Photobio. A:Chem. , 2007 , 189 : 258 —263
[118 ] Zhang H , Wang G, Chen D , Li J H , et al . Chem. Mater. , 2008 ,20 (20) : 6543 —6549
[119 ] Yu Y, Yu J C , Chan CY, et al . Appl . Catal . B : Environ. , 2005 ,61 : 1 —11
[120 ] Yang Y, Qu L , Dai L , et al . Adv. Mater. , 2007 , 19 : 1239 —1243
[121 ] Orlanducci S , Sessa V , Terranova ML , et al . Carbon , 2006 , 44 :2839 —2843
[122 ] Suzuki S , Bower C , Watanabe Y, et al . Appl . Phys. Lett . , 2000 ,76 (26) : 4007 —4009
[123 ] Yu Y, Yu J C , Yu J G, et al . Appl . Catal . A: Gen. , 2005 , 289 :186 —196
[124 ] Wang W, Serp P , Kalck P , et al . Appl . Catal . B : Environ. ,2005 , 56 : 305 —312
[125 ] Dechakiatkrai C , Chen J , Lynam C , Wallace G G, et al . J .Electrochem. Soc. , 2007 , 154 (5) : A407 —A411
[126 ] Wang WD , Serp P , Kalck P , et al . Mater. Res. Bull . , 2008 , 43 :958 —967
[127 ] Fan W G, Gao L , Sun J . J . Am. Ceram. Soc. , 2006 , 89 (2) :731 —733
[128 ] Liu B , Zeng H C. Chem. Mater. , 2008 , 20 : 2711 —2718
[129 ] Xia X H , Jia ZJ , Yu Y, et al . Carbon , 2007 , 45 : 717 —721
[130 ] Yao Y, Li C , Ciston S , Gray KA , et al . Environ. Sci . Technol . ,2008 , 42 : 4952 —4957
[131 ] Jiang L , Gao L. Mater. Chem. Phys. , 2005 , 91 : 313 —316
[132 ] Wang S , Shi X, Shao G, et al . J . Phys. Chem. Solids , 2008 , 69 :2396 —2400
[133 ] Zhang L , Li J , Chen Z, et al . Appl . Catal . A: Gen. , 2006 , 299 :292 —297
[134 ] Ajayan P M. Chem. Rev. , 1999 , 99 : 1787 —1799
[135 ] Sun G, Kulrti J , Kertesz M, et al . J . Phys. Chem. B , 2003 , 107 :6924 —6931
[136 ] Wang W D , Serp P , Kalck P , Foria J L , et al . J . Mole. Catal . A:Chem. , 2005 , 235 : 194 —199
[137 ] An G, Ma W, Sun Z, Liu ZM, et al . Carbon , 2007 , 45 : 1795 —1801
[138 ] Wang H , Quan X, Yu H , et al . Carbon , 2008 , 46 : 1126 —1132
[139 ] Williams G, Seger B , Kamat P V. ACS Nano , 2008 , 2 (7) : 1487 —1491
[140 ] Yang L X, Luo S L , Liu S H , Cai Q Y, et al . J . Phys. Chem. C ,2008 , 112 : 8939 —8943
[141 ] Bae E , Choi W. Environ. Sci . Technol . , 2003 , 37 : 147 —152
[142 ] Li D , Dong W, Sun S , et al . J . Phys. Chem. C , 2008 , 112 :14878 —14882
[143 ] Wang C , Li J , Mele G, et al . Appl . Catal . B : Environ. , 2007 ,76 : 218 —226
[144 ] Zhao X, Li Z, Chen Y, et al . Appl . Surf . Sci . , 2008 , 254 :1825 —1829
[145 ] Fa W, Zan L , Gong C , et al . Appl . Catal . B : Environ. , 2008 ,79 : 216 —223
[146 ] Palmisano G, Gutiérrez MC , Ferrer ML , et al . J . Phys. Chem. C ,2008 , 112 : 2667 —2670
[147 ] Zhang H , Zong R , Zhao J , et al . Environ. Sci . Technol . , 2008 ,42 : 3803 —3807
[148 ] Li X, Wang D , Cheng G, et al . Appl . Catal . B : Environ. , 2008 ,81 : 267 —273
[149 ] Wang D , Wang Y, Li X, et al . Catal . Commun. , 2008 , 9 : 1162 —1166
[150 ] Chowdhury D , Paul A , Chattopadhyay A. Langmuir , 2005 , 21 :4123 —4128
[151 ] Zhang D , Qiu R , Song L , et al . J . Hazard. Mater. , 2008 , 156 :80 —85
[152 ] Liang H C , Li X Z. Appl . Catal . B : Environ. , 2008 , 86 : 8 —17
[1] 王丹丹, 蔺兆鑫, 谷慧杰, 李云辉, 李洪吉, 邵晶. 钼酸铋在光催化技术中的改性与应用[J]. 化学进展, 2023, 35(4): 606-619.
[2] 刘雨菲, 张蜜, 路猛, 兰亚乾. 共价有机框架材料在光催化CO2还原中的应用[J]. 化学进展, 2023, 35(3): 349-359.
[3] 李锋, 何清运, 李方, 唐小龙, 余长林. 光催化产过氧化氢材料[J]. 化学进展, 2023, 35(2): 330-349.
[4] 张永, 张辉, 张逸, 高蕾, 卢建臣, 蔡金明. 表面合成异质原子掺杂的石墨烯纳米带[J]. 化学进展, 2023, 35(1): 105-118.
[5] 范倩倩, 温璐, 马建中. 无铅卤系钙钛矿纳米晶:新一代光催化材料[J]. 化学进展, 2022, 34(8): 1809-1814.
[6] 张辉, 王珊珊, 余金山. 低对称性二维ReS2及其异质结的化学气相沉积法制备及性质[J]. 化学进展, 2022, 34(6): 1440-1452.
[7] 马晓清. 石墨炔在光催化及光电催化中的应用[J]. 化学进展, 2022, 34(5): 1042-1060.
[8] 李晓微, 张雷, 邢其鑫, 昝金宇, 周晋, 禚淑萍. 磁性NiFe2O4基复合材料的构筑及光催化应用[J]. 化学进展, 2022, 34(4): 950-962.
[9] 庞欣, 薛世翔, 周彤, 袁蝴蝶, 刘冲, 雷琬莹. 二维黑磷基纳米材料在光催化中的应用[J]. 化学进展, 2022, 34(3): 630-642.
[10] 占兴, 熊巍, 梁国熙. 从废水到新能源:光催化燃料电池的优化与应用[J]. 化学进展, 2022, 34(11): 2503-2516.
[11] 王文婧, 曾滴, 王举雪, 张瑜, 张玲, 王文中. 铋基金属有机框架的合成与应用[J]. 化学进展, 2022, 34(11): 2405-2416.
[12] 唐晨柳, 邹云杰, 徐明楷, 凌岚. 金属铁络合物光催化二氧化碳还原[J]. 化学进展, 2022, 34(1): 142-154.
[13] 葛明, 胡征, 贺全宝. 基于尖晶石型铁氧体的高级氧化技术在有机废水处理中的应用[J]. 化学进展, 2021, 33(9): 1648-1664.
[14] 赵依凡, 毛琦云, 翟晓雅, 张国英. 钼酸铋光催化剂的结构缺陷调控[J]. 化学进展, 2021, 33(8): 1331-1343.
[15] 陈肖萍, 陈巧珊, 毕进红. 光催化降解土壤中多环芳烃[J]. 化学进展, 2021, 33(8): 1323-1330.