环境催化研究的现状与未来发展方向

摘要/Abstract

摘要： 环境污染问题是21世纪人类所面临的重大挑战之一，环境污染的治理已经成为一个迫在眉睫和极具挑战性的任务.环境催化技术被认为是解决目前面临的重大环境污染问题最有效的手段之一.本文主要从不同污染物催化净化的角度总结了近年来环境催化的发展现状；并探讨了环境催化研究领域目前所面临的挑战、提出了其未来的发展方向；最后，对环境催化的应用前景进行了展望.

关键词: 环境催化, 污染物, 催化净化, 研究现状, 展望

Abstract: The problem of environmental pollution is one of the most important challenges for mankind in the 21st century. The treatment of environmental pollutions has become an extremely urgent and challenging task. Environmental catalysis technology has been regarded as one of the most effective ways to solve the serious environmental pollution problems that we are facing. In this paper, the present status for the developing of environmental catalysis in recent years was summarized from the standpoint of purifying different pollutants. The challenges of environmental catalysis research were discussed and its future developments were also proposed. Finally, the application prospect of environmental catalysis was outlooked.

Key words: environmental catalysis, pollutants, catalytic purification, research status, prospect

赵震, 于学华. 环境催化研究的现状与未来发展方向[J]. 催化学报, 2019, 40(s1): 64-74.

ZHAO Zhen, YU Xuehua. Present Research Status of Environmental Catalysis and Its Future Developing Directions[J]. Chinese Journal of Catalysis, 2019, 40(s1): 64-74.

×
扫码分享

导出引用管理器 EndNote|Ris|BibTeX

链接本文: https://www.cjcatal.com/CN/

https://www.cjcatal.com/CN/Y2019/V40/Is1/64

参考文献

1 《十三五规划建议全文》. 中华人民共和国国务院.中国北京, 2015
2 He H, Li J H, He H, Shangguan W F, Hu C. Environmental catalysis:principles and applications, Beijing:Science press, 2008
3 Rodríguez-Padrón D, Puente-Santiago A R, Balu A M, Muñoz-Batista M J, Luque R. ChemCatChem, 2019, 11:18
4 Puxbaum H, Gomiscek B, Kalina M, Bauer H, Salam A, Stopper S. Atmos Environ, 2004, 38:3949
5 Zhao Z, Zhang G Z, Liu J, Liang P, Xu J, Duan A J, Jiang G Y, Xu C M. Chin J Catal, 2008, 29:303
6 Ji F, Men Y, Wang J G, Sun Y L, Wang Z D, Zhao B, Tao X T, Xu G J. Appl Catal B, 2019, 242:227
7 Anupama M, Prasad R. Catal Rev Sci Eng, 2014, 56:57
8 Shangguan W F, Teraoka Y, Kagawa S. Appl Catal B, 1998, 16:149
9 Xiong J, Wu Q Q, Mei X L, Liu J, Wei Y C, Zhao Z, Wu D, Li J M. ACS Catal, 2018, 8:7915
10 Ma C, Mu Z, Li J, Jin Y, Cheng J, Lu G, Hao Z, Qiao S. J Am Chem Soc, 2010, 132, 2608
11 Zhang X, Shi H, Xu B Q. Angew Chem Int Ed, 2005, 44:7132
12 Wang H L, Jin B F, Wang H B, Ma N N, Liu W, Weng D, Wu X D, Liu S. Appl Catal B, 2018, 237:251
13 Cao C M, Zhang Y X, Liu D S, Meng M. Small, 2015, 11:3659
14 Liu T Z, Li Q, Xin Y, Zhang Z L, Tang X F, Zheng L R, Gao P X. Appl Catal B, 2018, 232:108
15 Fang F, Feng N J, Wang L, Meng J, Liu G, Zhao P, Gao P F, Ding J, Wan H, Guan G F. Appl Catal B, 2018, 236:184
16 Yang Q Q, Gu F N, Tang Y F, Zhang H, Liu Q, Zhong Z Y, Su F B. RSC Adv, 2015, 5:26815
17 Liu J, Zhao Z, Xu CM, Duan A J, Zhu L, Wang X Z. Appl Catal B, 2005, 61:36
18 Zhao Z, Liu J, Duan A J, Xu C M, Kobayashi T, Wachs I E. Top Catal, 2006, 38:309
19 Liu J, Zhao Z, Liang P, Xu C M, Duan A J, Jiang G Y, Lin W Y, Wachs I E. Catal Lett, 2008, 120:148
20 Liu J, Zhao Z, Xu C M, Duan A J, Wang L, Zhang S J. Catal Commun, 2007, 8:220
21 Wei Y C, Liu L, Zhao Z, Jiang G Y, Duan A J, He Q, Wang X P. Chin J Catal, 2010, 31:283
22 Liu J, Zhao Z, Chen Y S, Xu C M, Duan A J, Jiang G Y. Catal Today, 2012, 175:117
23 Liu J, Zhao Z, Wang J Q, Xu C M, Duan A J, Jiang G Y, Yang Q. Appl Catal B, 2008, 84:185
24 Liu J, Zhao Z, Xu J F, Xu C M, Duan A J, Jiang G Y, He H. Chem Commun, 2011, 47:11119
25 Zhang G Z, Zhao Z, Liu J, Jiang G. Y, Duan A J, Zheng J X, Chen S L, Zhou R X. Chem Commun, 2010, 46:457
26 Xu J F, Liu J, Zhao Z, Xu C M, Zheng J X, Duan A J, Jiang G Y. J Catal, 2011, 282:1
27 Tang L, Zhao Z, Wei Y C, Liu J, Peng Y, Li K X. Catal Today, 2017, 297:131
28 Cheng Y, Song W Y, Liu J, Zheng H L, Zhao Z, Xu C M, Wei Y C. ACS Catal, 2017, 7:3883
29 Alcalde-Santiago V, Davó-Quiñonero A, Lozano-Castelló D, Bueno-López A. Appl Catal B, 2018, 234:187
30 Zhai G J, Wang J G, Chen Z M, Yang S F, Men Y. J Hazard Mater, 2019, 363:214
31 Wei Y C, Liu J, Zhao Z, Duan A J, Jiang G Y, J Catal, 2012, 287:13
32 Wei Y C, Liu J, Zhao Z, Chen Y S, Xu C M, Duan A J, Jiang G Y, He H. Angew Chem Int Ed, 2011, 50:2326
33 Wei Y C, Jiao J Q, Zhang X D, Jin B F, Zhao Z, Xiong J, Li Y Z, Liu J, Li J. M. Nanoscale, 2017, 9:4558
34 Wei Y C, Zhao Z, Liu J, Xu C M, Duan A J, Jiang G Y. J Catal, 2014, 317:62
35 Wu Q Q, Jing M Z, Wei Y C, Zhao Z, Zhang X D, Xiong J, Liu J, Song W Y, Li J M. Appl Catal B, 2019, 244:628
36 Wu Q Q, Xiong J, Zhang Y L, Mei X L, Wei Y C, Zhao Z, Liu J, Li J M. ACS Catal, 2019, 9, 3700
37 Yu X H, Zhao Z, Wei Y C, Liu J. Sci Rep, 2017, 7:43894
38 Yu X H, Wang L Y, Chen M Z, Fan X Q, Zhao Z, Cheng K, Chen Y S, Sojka Z, Wei Y C, Liu J. Appl Catal B, 2019, 254:246
39 Neeft J P A. Delft:Delft University of Technology. 1995
40 Stannore B R, Brilhac J F, Gilot P. Carbon, 2001, 39:2247
41 Wu R J, Chou T Y, Yeh C T. Appl Catal B, 1995, 6:105
42 Iwamoto M, Hamada H. Catal Today, 1991, 10:57
43 Liu L, Guan X, Li Z, Zi X, Dai H X, He H. Appl Catal B, 2009, 90:1
44 Liang Y, Ding X, Zhao M, Wang J L, ChenY Q, Appl Sur Sci, 2018, 443:336
45 Liang Y, Ding X, Dai J, Zhao M, Zhong L, Wang J L, Chen Y Q. Catal Today, 2019, 327:64
46 Deng H, Yu Y B, Liu F D, Ma J Z, Zhang Y, He H. ACS Catal, 2014, 4:2776
47 Zhang X X, Wang X P, Zhao X J, Xu Y Z, Liu Y, Yu Q, Chem Eng J, 2015, 260:419
48 Tang X L, Hao J M, Xu W G, Li J H, Acta Sci Circum, 2005, 25:1297
49 Centi G, Ciambelli P, Perathoner S, Russo P. Catal Today, 2002, 75:3
50 Yan J F, Qiu W G, Song L Y, Chen Y, Su Y C, Bai G M, Zhang G Z, He H. Chem Commun, 2017, 53:1321
51 Liu Z, Zhang S, Li J, Zhu J, Ma L. Appl Catal B, 2014, 158:11
52 Qi G, Yang R T. J Catal, 2003, 217:434
53 Zhang L, Yao X, Lu Y, Sun C, Tang C, Gao F, Dong L. J Colloid Interface Sci, 2017, 509:334
54 Wang C, Yu F, Zhu M, Tang C J, Zhang K, Zhao D, Dong L, Dai B. J Environ Sci, 2018, 75:124
55 Liu F, Shan W, Lian Z, Xie L, Yang W, He H. Catal Sci Technol, 2013, 3:2699
56 Shan W, Liu F, He H, Shi X, Zhang C. Appl Catal B, 2012, 115:100
57 Peng Y, Si W Z, Li X, Chen J J, Li J H, Crittenden J, Hao J J. Environ Sci Technol, 2016, 50:9576
58 Shan W P, Liu F D, Yu Y B, He H, Deng C L, Zi X Y. Catal Commun, 2015, 59:226
59 Liu K, Liu F D, Xie L J, Shan W P, He H, Catal Sci Technol, 2015, 5:2290
60 Dusselier M, Davis M E. Chem Rev, 2018, 118:5265
61 Iwamoto M, Catal Soc Japan, 1990, 17
62 Campa M C, De Rossi S, Ferraris G, In dovina V. Appl Catal B, 1996, 8:315
63 Li Y J, Armor J N, J Catal, 1994, 145:1
64 Nishizaka Y, Misono M. Chem Lett, 1993, 22:1295
65 Wang X P, Yu Sh, Yang H L, Zhang S X. Appl Catal B, 2007, 71:246
66 Sato S, Yu Y, Yahiro H, Mizuno N, Iwamoto M. Appl Catal, 1991, 70:L1-L5
67 Liu Y, Tursun M, Yu H B, Wang X P. Mol Catal, 2019, 464:22
68 Paolucci C, Khurana I, Parekh A A, Li S, Shih A J, Li H, Di Iorio J R, Albarracin-Caballero J D, Yezerets A, Mille J T, Delgass W N, Ribeiro F H, Schneider W F, Gounder R. Science, 2017, 357:898
69 Marberger A, Petrov A W, Steiger P, Elsener M, Kröcher O, Nachtegaal M, Ferri D. Nat Catal, 2018, 1:221
70 Borfecchia E, Beato P, Svelle S, Olsbye U, Lamberti C, Bordiga S. Chem Soc Rev, 2018, 47:8097
71 Ren L, Zhu L, Yang C, Chen Y, Sun Q, Zhang H, Li C, Nawaz F, Meng X, Xiao F S. Chem Commun, 2011, 47:9789
72 Xie L J, Liu F D, Ren L M, Shi X Y, Xiao F S, He H. Environ Sci Technol, 2014, 48:566
73 Zhang T, Qiu F, Li J H. Appl Catal B, 2016, 195:48
74 Zhang T, Liu J, Wang D X, Zhao Z, Wei Y C, Cheng K, Jiang G Y, Duan A J. Appl Catal B, 2014, 148:520
75 Chen B, Xu R, Zhang R, Liu N. Environ Sci Technol, 2014, 48:13909
76 Zhang T, Li J M, Liu J, Wang D X, Zhao Z, Cheng K, Li J H. AIChE J, 2015, 61:3825
77 Liu J X, Liu J, Zhao Z, Wei Y C, Song W Y. AIChE J, 2017, 63:4430
78 Liu J X, Du Y H, Liu J, Zhao Z, Cheng K, Chen Y S, Wei Y C, Song W Y, Zhang X. Appl Catal B, 2017, 203:704
79 Hu Z, Sun K, Li W, Xu B. Catal Today, 2010, 158:432
80 Wang X, Yu Y, He H. Appl Catal B, 2010, 100:19
81 Zhang Z S, Chen B B, Wang X K, Xu L, Au C, Shi C, Crocker M. Appl Catal B, 2015, 165:232
82 Jablonska M, Gimeno A E P, Wegrzyn A, Chmielarz L. Acta Geodyn Geomater, 2014, 11:175
83 Yu J, Wang X, Li L, Hao Z, Xu Z, Lu G Q. Adv Funct Mater, 2007, 17:3598
84 Xian H, Zhang X W, Li X. A, Li L Y, Zou H, Meng M, Li Q A, Tan Y S, Tsubaki N. J Phys Chem C, 2010, 114:11844
85 Li X, Chen C, Liu C, Xian H, Guo L, Lv J, Jiang Z, Vemoux P. ACS Catal, 2013, 3:1071
86 Yu J, Tao Y, Liu C, Hao Z, Xu Z. Environ Sci Technol, 2007, 41:1399.
87 Xin Y, Li H, Zhang N N, Li Q, Zhang Z L, Cao X M, Hu P, Zheng L R, Anderson J A. ACS Catal, 2018, 8:4937
88 Xin Y, Zhang N N, Li Q, Zhang Z L, Cao X M, Zheng L R, Zeng Y W, Anderson J A. Appl Catal B, 2018, 229:81
89 Busca G, Larrubia M A, Arrighi L, Ramis G. Catal Today, 2005, 107:139
90 Corral A Y. New Mexico State University, 2001
91 Ramis G, Larrubia M A. J Mol Cat A, 2004, 215:161
92 Zhao Q S, Xiang J, Sun L S, Su S, Hu S. Energy Fuels, 2009, 23:1539
93 Troncon E, Nova I, Ciardelli C, Chatterjee D, Weibel M. J Catal, 2007, 245:1
94 Liu F D, He H, Ding Y. Appl Catal B, 2009, 93:194
95 Wu R, Zhang N Q, Li L C, He H, Song L Y, Qiu W G. Catalysts, 2018, 8:143
96 He C, Cheng J, Zhang X, Douthwaite M, Pattisson S, Hao Z P. Chem Rev, 2019, 119:4471
97 Zhao Q, Ge Y L, Ji N, Song C F, Ma D G, Liu Q L. Prog in Chem, 2016, 28:1847
98 He C, Cheng J, Zhang X, Douthwaite M, Pattisson S, Hao Z P. Chem Rev, 2019, In press DOI:10.1021/acs.chemrev.8b00408
99 Zhang X, Li Y, Li H, Shen W. J Nat Gas Chem, 2012, 21:113
100 Yin Z, Zhou W, Gao Y, Ma D, Kiely C J, Bao X. Chem Eur J, 2012, 18:4887
101 Yang J, Guan Y, Verhoeven T, Santen van R, Li C, Hensen E J M. Green Chem, 2009, 11:322
102 Yang K, Liu Y X, Deng J G, Zhao X T, Yang J, Han Z, Hou Z Q, Dai H X. Appl Catal B, 2019, 244:650
103 Wang Y F, Zhang C B, Liu F D, He H. Appl Catal B, 2013, 142-143:72
104 Ma C Y, Wang D H, Xue W J, Dou B J, Wang H L, Hao Z P, Environ Sci Technol, 2011, 45:3628
105 Su X W, Jin L Y, Lu J Q, Luo M F. J Ind Eng Chem, 2009, 15:683
106 Li D, Zheng Y, Wang X Y. Appl Catal A, 2008, 340:33
107 Zhao S, Hu F. Y, Li J H. ACS Catal, 2016, 6:3433.
108 Peng R S, Sun X B, Li S J, Chen L M, Fu M L, Wu J L, Ye D Q. Chem Eng J, 2016, 306:1234
109 Wang F, Dai H, Deng J, Bai G, Ji K, Liu Y. Environ Sci Technol, 2012, 46:4034
110 Yim S D, Koh D J, Nam I S. Catal Today, 2002, 75:269
111 Chintawar P S, Greene H L. Appl Catal B, 1997, 14:37
112 Liu L Z, Zhang H B, Jia J P, Sun T H, Sun M M. Inorg Chem, 2018, 57:8451
113 Hosseini M, Barakat T, Cousin R, Aboukaïs A, Su B L, De Weireld G, Siffert S. Appl Catal B, 2012, 111-112:218
114 Liu Y R, Li X, Liao W M, Jia A P, Wang Y J, Luo M F, Lu J Q. ACS Catal, 2019, 9:1472
115 Kasmi A E, Pan G F, Wu L N, Tian Z Y. Sci Bull, 2019, 64:625
116 Chen Y X, Huang Z W, Zhou M J, Ma Z, Chen J M, Tang X F. Environ Sci Technol, 2017, 51:2304
117 Liu Y Q, Liu Y, Guo Y, Xu J W, Xu X L, Fang X Z, Liu J J, Chen W F, Arandiyan H, Wang X. Ind Eng Chem Res, 2018, 57:14052
118 Behar S, Gómez-Mendoza N A, Gómez-García M, ?wier-czyński D, Quignard F, Tanchoux N. Appl Catal A, 2015, 504:203
119 Liang Y J, Liu Y X, Deng J G, Zhang K F, Hou Z Q, Zhao X T, Zhang X, Zhang K Y, Wei R J, Dai H X. Environ Sci Technol, 2019, 53:5926
120 Kamal M S, Razzak S A, Hossain M M. Atmos Environ, 2016, 140:117
121 Widmann D, Behm R J. Accounts Chem Res, 2014, 47:740
122 Bi W, Hu Y J, Li W G, Jiang H, Li C Z. Ind Eng Chem Res, 2018, 57:13353
123 Du M M, Huang J L, Sun D H, Wang D, Li Q B. Ind Eng Chem Res, 2018, 57:14910
124 Zhan W C, Wang J L, Wang H F, Zhang J S, Liu X F, Zhang P F, Chi M F, Guo Y L, GuoY, Lu G Z, Sun S H, Dai S, Zhu H Y. J Am Chem Soc, 2017, 139:8846
125 Prasad R, Singh P. Catal Rev, 2012, 54:224
126 Xie X W, Li Y, Li Z Q, Haruta M, Shen W J. Nature, 2009, 458:746
127 Jia C J, Schwickardi M, Weidenthaler C, Schmidt W, KorhonenBert M S, Schüth W F. J Am Chem Soc, 2011, 133:11279
128 InomataY, Albrecht K, Yamamoto K. ACS Catal, 2018, 8:451
129 Hu Z, Liu X F, Meng D M, Guo Y, Guo Y L, Lu G Z. ACS Catal, 2016, 6:2265
130 Hornés A B, Hungría P, Bera A, López Cámara M, Fernán-dez-García A, Martínez-Arias L, Barrio M, Estrella G, Zhou J J, Fonseca J, Hanson C, Rodriguez J A. J Am Chem Soc, 2010, 132:34
131 Yang F, Graciani J, Evans J, Liu P, Hrbek J, Sanz J F, Rodriguez J A. J Am Chem Soc, 2011, 133:3444
132 Wang X Y, Huang K K, Yuan L, Xi S B, Yan W S, Geng Z B, Cong Y G, Sun Y, Tan H, Wu X F, Li L P, Feng S H. J Phys Chem Lett, 2018, 4146
133 Zhang L, Ivo A W, Qiong Y F, Xun S J, Hensen E. J. M. J Phys Chem C, 2019, 123:7290
134 Zhou X, Shen Q, Yuan K D, Yang W S, Chen Q W, Geng Z H, Zhang J L, Shao X, Chen W, Xu G Q, Yang X M, Wu K. J Am Chem Soc, 2018, 140:554
135 Zhang Z L, Zhu Y H, Asakura H, Zhang B, Zhang J G, Zhou M X, Han Y, Tanaka T, Wang A Q, Zhang T, Yan N. Nat Commun, 2017, 8:16100
136 Li J J, Zhu B L, Wang G C, Liu Z F, Huang W P, Zhang S M. J Phys Chem C, 2018, 122:25456
137 Jain R, Gopinath C S. ACS Appl Mater Inter, 2018, 10:41268
138 Zhou M J, Cai L L, Bajdich M, García-MelchorHong M, Li J, He J, Wilcox J, Wu W D, Vojvodic A, Zheng X L. ACS Catal, 2015, 5:4485
139 Xu J, Deng Y Q, Zhang X M, Luo Y, Mao W, Yang X J, Ouyang L, Tian P F, Han Y F. ACS Catal, 2014, 4:4106
140 Guo X G, Fu Q, Ning Y X, Wei M M, Li M R, Zhang S, Jiang Z, Bao X H. J Am Chem Soc, 2012, 134:12350
141 Wang W, Cao Z M, Liu K, Chen J Y, Wang Y Y, Xie S F, Nano Lett, 2017, 17:7613
142 Wu L N, Tian Z Y, Qin W. J Phys Chem C, 2018, 122:16733
143 An W, Pei Y, Zeng X C. Nano Lett, 2008, 8:195
144 Zhan W C, Wang J L, Wang H F, Zhang J S, Liu X F, Zhang P F, Chi M F, Guo Y L, Guo Y, Lu G Z, Sun S H, Dai S, Zhu H Y, J Am Chem Soc, 2017, 139:8846
145 Yu Q, Gao F, Dong L. Chin J Catal, 2012, 33:1245
146 Zhang F L, Zhang X, Jiang G X, Li N, Hao Z P, Qu S Q. Chem Eng J, 2018, 348:831
147 Zhang X, Tang Y Y, Qu S Q, Da J W, Hao Z P. ACS Catal, 2015, 5:1053
148 Zhu G X, Zhu J G, Li W L, Yao W Q, Zong R L, Zhu Y F, Zhang Q F. Environ Sci Technol, 2018, 52:8684
149 Tang W X, Liu H D, Wu X F, Chen Y F. Ozone:Sci Eng, 2014, 36:502
150 Nikolov P, Genov K, Konova P, Milenova K, Batakliev T, Georgiev V, Kumar N, Sarker D K, Pishev D, Rakovsky S. J Hazard Mater, 2010, 184:16
151 Wen G, Zhu H, Wei Y, Huang T L, Ma J. Chem. Eng. J, 2017, 307:364
152 Gao Z, Yao L, Yang W, Wu J. Ind Water Treat, 2017, 37:52
153 Kasprzyk-Hordern B, Ziolek M, Nawrocki J. Appl Catal B, 2003, 46:639
154 Zhang Y L, Zhou Y B, Peng C, Shi J J, Wang Q Y, He L F, Shi L. Appl Surf Sci, 2018, 436:981
155 Arena F, Italiano C, Drago Ferrante G, Trunfio G, Spadaro L. Appl Catal B, 2014, 144:292
156 Ma C J, Wen Y Y, Rong C L, Zhang N W, Zheng G B, Chen B H. Catal Sci Technol, 2017, 7:3200
157 Gao P, Song Y, Wang S N, Descorme C, Yang S X. Front Environ Sci Eng, 2018, 12:1
158 Zhao W R, Zhu X, Wang Y, Ai Z Y, Zhao D Y. Chem Eng J, 2014, 254:410
159 Huo X C, Van Hoomissen D J, Liu J Y, Vyas S, Strathmann T J. Appl Catal B, 2017, 211:188
160 Chen P, Blaney L, Cagnetta G, Huang J, Wang B, Wang Y J, Deng S B, Yu G. Environ Sci Technol, 2019, 53:1564
161 Hao D D, Yang Y D, Xu B, Cai Z S. ACS Sustainable Chem Eng, 2018, 6:10789

[1]	郑子叶, 田爽, 冯玉晓, 赵珊, 李鑫, 王曙光, 何作利. 光催化耦合技术在废水处理中的最新进展[J]. 催化学报, 2023, 54(11): 88-136.
[2]	林莉, 何潇洋, 谢顺吉, 王野. CO₂电催化转化迈向大规模化的挑战与展望[J]. 催化学报, 2023, 53(10): 1-7.
[3]	张亚萍, 徐继香, 周洁, 王磊. 金属-有机框架衍生的多功能光催化剂[J]. 催化学报, 2022, 43(4): 971-1000.
[4]	张龙, 杨懿, 李远志, 武继春, 吴绍文, 谭鑫, 胡倩倩. 二氧化铈-铈掺杂锰氧化物纳米复合物高效紫外-可见-红外光热催化净化乙酸乙酯[J]. 催化学报, 2022, 43(2): 379-390.
[5]	王慧杰, 李鑫, 赵小雪, 李春岩, 宋相海, 张鹏, 霍鹏伟, 李鑫. 可用于环境修复的半导体光催化剂及其改性策略研究进展[J]. 催化学报, 2022, 43(2): 178-214.
[6]	赵小雪, 李金择, 李鑫, 霍鹏伟, 施伟东. 金属有机框架(MOFs)基光催化剂的设计及其在太阳能燃料生产和污染物降解领域的研究进展[J]. 催化学报, 2021, 42(6): 872-903.
[7]	肖娟, 陈军伟, 欧祖翘, 赖俊杭, 俞同文, 王毅. 基于N-掺杂碳包覆Fe₃N复合材料的高效异相电芬顿降解有机物[J]. 催化学报, 2021, 42(6): 953-962.
[8]	汤文杰, 陈娟荣, 尹正亮, 盛维琛, 林逢建, 许辉, 曹顺生. 铋改性TiO₂单晶光催化剂的制备及其完全去除酚类污染物[J]. 催化学报, 2021, 42(2): 347-355.
[9]	孟涤, 朱倩, 魏燕, 甄胜利, 段苒, 陈春城, 宋文静, 赵进才. 基于芳香胺化合物的光催化脱卤加氢[J]. 催化学报, 2020, 41(10): 1474-1479.
[10]	黄国城, 刘学艳, 施双汝, 李斯坦, 肖正涛, 甄伟前, 刘升卫, 王保强. 有序介孔TiO₂纳米纤维及其串联光催化水处理-产氢性能[J]. 催化学报, 2020, 41(1): 50-61.
[11]	谢权, 何婉楣, 刘升卫, 李传浩, 张金锋, 王保强. 双功能S-型g-C₃N₄/Bi/BiVO₄复合光催化剂驱动人工碳循环[J]. 催化学报, 2020, 41(1): 140-153.
[12]	陈辉煌, 库建刚, 王连洲. 常温常压黑暗条件下用于环境修复的热催化:基本原理、发展和挑战[J]. 催化学报, 2019, 40(8): 1117-1134.
[13]	余长林, 何洪波, 刘兴强, 曾巨澜, 刘珍. SiO₂修饰强化BiOCl纳米片对有机污染物的光催化降解性能[J]. 催化学报, 2019, 40(8): 1212-1221.
[14]	明淑君, 庞磊, 范驰, 郭文, 董亚浩, 刘鹏, 陈真, 李涛. 柴油机尾气中的碱性无机污染物引起Cu-SAPO-18脱硝催化剂的化学失活[J]. 催化学报, 2019, 40(4): 590-599.
[15]	任亦杰, 曾德乾, Wee-Jun Ong. g-C₃N₄界面改性:掺杂金属硫化物构建新型异质结光催化剂的能源转换展望[J]. 催化学报, 2019, 40(3): 289-319.