中文
Earlier issues
Announcement
More
Progress in Chemistry 2009, Vol. 21 Issue (04): 663-671 Previous Articles   Next Articles

• Review •

Environmental-Friendly Synthesis of Adipic Acid by Catalytic Oxidation

Ren Shuiying;  Xie Zhengfeng; Xie Xiaopeng; Qin Gaofei; Wang Jide**   

  1. (Key Laboratory of Oil&Gas Fine Chemicals, Ministry of Education, Xinjiang University, Urumqi 830046, China)
  • Received: Revised: Online: Published:
  • Contact: Wang Jide E-mail:awangjd@xju.edu.cn
PDF ( 3141 ) Cited
Export

EndNote

Ris

BibTeX

Adipic acid is a most important organic synthetic intermediate, and much attention has been paid for its green synthesis process because of disadvantages in current technology. In this paper, recent developments on catalytic oxidation systems of Environmental-friendly synthesis of adipic acid are reviewed, in which hydrogen peroxide, oxygen or ozone is used as clean oxidant and cyclohexene, cyclohexone and/or cyclohexanol as substrate. The focus is especially on the catalytic system of tungstate-H2O2, and several other new synthetic methods of adipic acid are also summarized. At the same time, advantages and disadvantages of each catalytic system are discussed on the aspects of solvent, yield and post-processing. Based on the discussions for these systems, the supported catalyst-hydrogen peroxide system will be a perfect one for the industrialization in the future.

Contents
1 Introduction
2 Catalytic oxidation systems of tungsten-contained compounds and hydrogen peroxide
2.1 Sodium tungstate and its complex
2.2 Heteropoly acid, heteropolyacid salts and their peroxides
2.3 Tungstic acid
2.4 Tungsten trioxide
3 Catalytic oxidation systems of supported catalysts-hydrogen peroxide
4 Catalytic oxidation systems of molecular sieve-hydrogen peroxide
5 Supercritical method
6 Biosynthesis
7 Ozonolysis
8 Conclusion

Key words: adipic acid, catalytic oxidation, hydrogen peroxide, oxygen, environmental-friendly oxidation

CLC Number: 

[ 1 ]  东方雨虹(Dongfang Y H) . 医药化工( Pharmaceutical Chemical Engineering) , 2006 , 4 : 8 —14
[ 2 ]  Sato K, Aoki M, Noyori R. Science , 1998 , 281 : 1646 —1648
[ 3 ]  Castellan A , Bart J C J , Cavallaro S. Catal . Today , 1991 , 9 (3) :237 —254
[ 4 ]  Bolm C , Beckmann O , Dabard O A G. Angew. Chem. Int . Ed. ,1999 , 38 (7) : 907 —909
[ 5 ]  童金辉(Tong J H) , 李臻(Li Z) , 夏春谷(Xia C G) . 化学进展(Prog. Chem. ) , 2005 , 17 (1) : 96 —110
[ 6 ]  许维相(Xu WX) , 王彩凤(Wang C F) , 姜恒(Jiang H) . 化工科技(Science and Technology in Chemical Industry) , 2005 , 13 (4) :46 —49
[ 7 ]  刘周恩(Liu Z E) , 章亚东(Zhang YD) , 连春红(Lian C H) . 当代化工(Contemporary Chemical Industry) , 2006 , 35 (3) : 96 —110
[ 8 ]  古玲(Gu L) , 陈俊霞(Chen J X) , 吴玉龙(Wu YL) . 化学工业与工程(Chemical Industry and Engineering) , 2002 , 19 (5) : 380 —383
[ 9 ]  王玉华(Wang Y H) , 唐星华(Tang X H) , 许才利(Xu CL) . 江西化工(Jiangxi Chemical Industry) , 2006 , (1) : 20 —22
[10 ]  宫红(Gong H) , 姜恒(Jiang H) , 吕振波(LüZ B) . 高等学校化学学报( Chemical Journal of Chinese University) , 2000 , 21 :1121 —1123
[11 ]  Zhu W, Li H , He X, et al . Catal . Commun. , 2008 , 9 (4) : 551 —555
[12 ]  朱文帅(Zhu W S) , 李华明(Li H M) , 何晓英(He X Y) . 精细化工(Fine Chemicals) , 2007 , 24 : 674 —678
[13 ]  Deng Y, Ma Z, Wang K, et al . Green Chem. , 1999 , 1 (6) : 275 —276
[14 ]  马祖福(Ma Z F) , 邓友全(Deng Y Q) , 王坤(Wang K) . 化学通报(Chemistry) , 2001 , (2) : 116 —119
[15 ]  Zhu W, Li H , He X, et al . J . Chem. Res. , 2006 , 12 : 774 —775
[16 ]  朱文帅(Zhu W S) , 何晓英(He X Y) , 李华明(Li H M) . 应用化学(Applied Chemistry) , 2007 , 24 (12) : 1388 —1391
[17 ]  宫红(Gong H) , 杨中华(Yang Z H) , 姜恒(Jiang H) . 催化学报(Chinese Journal of Catalysis) , 2002 , 23 : 182 —184
[18 ]  郭明林(Guo M L) . 分子催化(Journal of Molecular Catalysis) ,2003 , 17 : 385 —388
[19 ]  王向宇(Wang X Y) , 苗永霞(Miao Y X) , 贾琦(Jia Q) . 石油化工(Petrochemical Technology) , 2003 , 32 (7) : 608 —610
[20 ]  周民锋(Zhou M F) , 纪顺俊(Ji S J ) , 黄晓英(Huang X Y) . 合成化学(Chinese Journal of Synthetic Chemistry) , 2004 , 12 : 9 —12
[21 ]  袁先友(Yuan X Y) , 刘秋华(Liu Q H) , 杨相军(Yang XJ ) . 湖南科技学院学报(Journal of Hunan University of Science and Engineering) , 2005 , 11 : 86 —88
[22 ]  Jiang H , Gong H , Yang Z, et al . React . Kinet . Catal . Lett . ,2002 , 75 : 315 —321
[23 ]  Huang X, Ji S , Zhou M. Journal of Suzhou University (Nature Science Edition) , 2003 , 19 : 79 —92
[24 ]  Huang X, Ji S , Zhou M. Journal of Suzhou University (Nature Science Edition) , 2003 , 19 : 89 —94
[25 ]  周广栋(Zhou G D) , 甄开吉(Zhen K J ) , 王海水(Wang H S) . 化学进展(Progress in Chemistry) , 2006 , 18 (4) : 382 —388
[26 ]  张英群(Zhang Y Q) , 王春(Wang C) , 李贵深(Li GS) . 有机化学(Chinese Journal of Organic Chemistry) , 2003 , 23 : 104 —105
[27 ]  连春红(Lian C H) , 章亚东(Zhang YD) , 孙可可(Sun K K) . 石油化工(Petrochemical Technology) , 2006 , 35 : 932 —936
[28 ]  贾琦(Jia Q) , 欧玲(Ou L) , 马红(Ma H) . 河南化工( Henan Chemical Industry) , 2004 , (4) : 18 —20
[29 ]  Ishii Y. J . Mol . Catal . A: Chem. , 1997 , 117 : 123 —137
[30 ]  张金辉(Zhang J H) , 宫红( Gong H) . 石油化工高等学校学报(Journal of Petrochemical Universities) , 2003 , 16 : 25 —28
[31 ]  Antonelli E , D’Aloisio R , Gambaro M, et al . J . Org. Chem. ,1998 , 63 : 7190 —9206
[32 ]  李华明(Li H M) , 纪明慧(Ji M H) , 林海强(Lin H Q) . 精细化工(Fine Chemicals) , 2003 , 20 : 377 —380
[33 ]  李华明(Li H M) , 纪明慧(Ji M H) , 林海强(Lin H Q) . 应用化学(Applied Chemistry) , 2003 , 20 : 570 —573
[34 ]  李华明(Li H M) , 纪明慧(Ji M H) , 林海强(Lin H Q) . 石油化工(Petrochemical Technology) , 2003 , 32 (5) : 374 —377
[35 ]  Ren S , Xie Z, Wang J , et al . Catal . Commun. 2009 , 10 ( 5) :464 —467
[36 ]  曹发斌(Cao F B) , 孙盈建(Sun YJ ) , 刘云义(Liu Y Y) . 合成化学(Chinese Journal of Synthetic Chemistry) , 2006 , 14 : 603 —605
[37 ]  李惠云(Li H Y) , 陈志强(Chen Z Q) , 张建强(Zhang J Q) . 化学世界(Chemistry World) , 2005 , (11) : 672 —675
[38 ]  丁宗彪(Ding Z B) , 连慧(Lian H) , 王全瑞(Wang Q R) . 有机化学(Chinese Journal of Organic Chemistry) , 2004 , 24 : 319 —321
[39 ]  曹发斌(Cao F B) , 姜恒(Jiang H) , 宫红( Gong H) . 有机化学(Chinese Journal of Organic Chemistry) , 2005 , 25 : 96 —100
[40 ]  曹发斌(Cao F B) , 姜恒(Jiang H) , 宫红(Gong H) . 合成纤维工业(China Synthetic Fiber Industry) , 2004 , 27 : 34 —36
[41 ]  Usui Y, Sato K. Green Chem. , 2003 , 5 : 373 —375
[42 ]  阎松(Yan S) , 姜恒(Jiang H) , 宫红(Gong H) . 中国钨业(China Tungsten Industry) , 2005 , 20 : 33 —36
[43 ]  黎先财(Li X C) , 曹小华(Cao X H) , 徐常龙(Xu CL) . 应用化学(Applied Chemistry) , 2006 , 23 : 1249 —1252
[44 ]  徐常龙(Xu C L) , 柳闽生(Liu M S) , 曹小华(Cao X H) . 化工时刊(Chemical Industry Times) , 2006 , 20 (5) : 7 —9
[45 ]  赵忠奎(Zhao Z K) , 李宗石(Li Z S) , 王桂茹(Wang GR) . 化学进展(Progress in Chemistry) , 2004 , 16 (4) : 620 —630
[46 ]  Yang XL , Dai W L , Guo C , et al . J . Catal . , 2005 , 234 (2) :438 —450
[47 ]  Lu G, Li X, Qu Z, et al . Appl . Surf . Sci . , 2008 , 255 : 3117 —3120
[48 ]  Xia X, Jin R , He Y, et al . Appl . Surf . Sci . , 2000 , 165 (4) :255 —259
[49 ]  Yang X L , Dai W L , Gao R , et al . J . Catal . , 2007 , 249 (2) :278 —288
[50 ]  王新平(Wang X P) , 叶兴凯(Ye X K) , 吴越(Wu Y) . 物理化学学报(Acta Physico-Chimica Sinica) , 1995 , 11 (12) : 1105 —1109
[51 ]  周愿(Zhou Y) , 刘新玲(Liu XL) , 王焕龙(Wang HL) 等. 工业催化( Industrial Catalysis) , 2001 , (2) : 39 —42
[52 ]  Rao KM, Gobetto P , Iannibello A , et al . J . Catal . , 1989 , 199 :512 —516
[53 ]  杨师棣(Yang S D) , 王福民(Wang F M) . 化学试剂(Chemical Reagent) , 2002 , 24 (6) : 27 —28
[54 ]  彭安顺(Peng A S) , 夏闽(Xia M) , 金学勇(Jin X Y) . 化学研究与应用(Chemical Research and Application) , 2003 , 4 : 15 —22
[55 ]  姜兆波(Jiang Z B) , 劳振花(Lao Z H) . 科学技术与工程(Science Technology and Engineering) , 2006 , 26 : 3139 —3141
[56 ]  王玉华(Wang Y H) , 董军锋(Dong J H) , 唐星华(Tang X H) .南昌航空工业学院学报( 自然科学版) (Journal of Nanchang Institute of Aeronautical Technology (Natural Science Edition ) ) ,2006 , 20 : 28 —30
[57 ]  Yang D , Liu M, Zhao W, et al . Catal . Commun. , 2008 , 9 (14) :2407 —2410
[58 ]  Yang XL , Dai WL , Chen H , et al . J . Catal . , 2005 , 229 (1) :259 —263
[59 ]  Yang X L , Dai W L , Gao R , et al . J . Catal . , 2007 , 249 (2) :278 —288
[60 ]  Yang XL , Dai W L , Gao R , et al . J . Mol . Catal . A: Chem. ,2005 , 241 (1P2) : 205 —214
[61 ]  Yang XL , Dai WL , Chen H , et al . Appl . Catal . A , 2005 , 283(1/2) : 1 —8
[62 ]  Schindler G P , Bartl P , Hoelderich W F. Appl . Catal . A , 1998 ,166 (2) : 267 —279
[63 ]  Balkus KJ , Gabrielov A G. US 5830429 , 1998
[64 ]  Chiker F , Launay F , Nogier J P , et al . Green Chem. , 2003 , 5 :318 —322
[65 ]  Chiker F , Nogier J P , Launay F , et al . Appl . Catal . A , 2003 ,243 : 309 —321
[66 ]  Cheng C , Lin KJ , Prasad M R , et al . Catal . Commun. , 2007 , 8 :1060 —1064
[67 ]  Lapisardi G, Chiker F , Launay F , et al . Catal . Commun. , 2004 ,5 : 277 —28
[68 ]  Lee S , Robert R , Kenneth D M, Angew. Chem. Int . Ed. , 2003 ,42 : 1520 —1523
[69 ]  Raja R , Lee S O , Sanchez-Sanchez M, et al . Top. Catal . , 2002 ,20 : 85 —88
[70 ]  Raja R , Sankar G, Thomas J M. J . Am. Chem. Soc. , 1999 , 121 :11926 —11927
[71 ]  Timofeeva M N , Kholdeeva O A , Jhung S H , et al . Appl . Catal .A , 2008 , 345 (2) : 195 —200
[72 ]  Beckman E J . Environ. Sci . Technol . , 2003 , 37 (23) : 5289 —5296
[73 ]  Olsen M H N , Salomao G C , Drago V , et al . J . Supercrit . Fluids ,2005 , 34 : 119 —124
[74 ]  Hou Z, Han B , Gao L , et al . Green Chem. , 2002 , 4 : 426 —430
[75 ]  Draths KM, Frost J W. Green Chem. , 1998 , 157 —159
[76 ]  Draths K M, Frost J W. J . Am. Chem. Soc. , 1994 , 116 (1) :399 —400
[77 ]  John F , Karen D , Lafayette W. Biotechnol . Adv. , 1997 , 15 (1) :294
[78 ]  Niu W, Draths KM. , Frost J W. Biotechnol . Progr. , 2002 , 18 :201 —211
[79 ]  Schuchardt U , Cardoso D , Sercheli R , et al . Appl . Catal . A ,2001 , 211 : 1 —17
[80 ]  Thomas J M, Raja R , Johnson B F G, et al . Ind. Eng. Chem.Res. , 2003 , 42 (8) : 1563 —1570
[81 ]  Criegee R. Angew. Chem. Int . Ed. Engl . , 1975 , 87 : 765 —769
[82 ]  Bailay P S. Ind. Eng. Chem. , 1958 , 50 (7) : 993 —996
[83 ]  Habib R M, Chiang C Y, Bailey P S. J . Org. Chem. , 1984 , 49(15) : 2780 —2784
[84 ]  崔海龙(Cui H L) , 章亚东( Zhang Y D) . 河南化工( Henan Chemical Industry) , 2007 , 24 : 16 —19
[1] Yue Yang, Ke Xu, Xuelu Ma. Catalytic Mechanism of Oxygen Vacancy Defects in Metal Oxides [J]. Progress in Chemistry, 2023, 35(4): 543-559.
[2] Feng Li, Qingyun He, Fang Li, Xiaolong Tang, Changlin Yu. Materials for Hydrogen Peroxide Production via Photocatalysis [J]. Progress in Chemistry, 2023, 35(2): 330-349.
[3] Yiling Tan, Shichun Li, Xi Yang, Bo Jin, Jie Sun. Strategies of Improving Anti-Humidity Performance for Metal Oxide Semiconductors Gas-Sensitive Materials [J]. Progress in Chemistry, 2022, 34(8): 1784-1795.
[4] Yuexiang Zhu, Weiyue Zhao, Chaozhong Li, Shijun Liao. Pt-Based Intermetallic Compounds and Their Applications in Cathodic Oxygen Reduction Reaction of Proton Exchange Membrane Fuel Cell [J]. Progress in Chemistry, 2022, 34(6): 1337-1347.
[5] Wenyan Gao, Xuan Zhao, Xilin Zhou, Yaran Song, Qingrui Zhang. Strategies, Research Progress and Enlightenment of Enhancing the Heterogeneous Fenton Catalytic Reactivity: A Critical Review [J]. Progress in Chemistry, 2022, 34(5): 1191-1202.
[6] Hao Sun, Chaopeng Wang, Jun Yin, Jian Zhu. Fabrication of Electrocatalytic Electrodes for Oxygen Evolution Reaction [J]. Progress in Chemistry, 2022, 34(3): 519-532.
[7] Minglong Lu, Xiaoyun Zhang, Fan Yang, Lian Wang, Yuqiao Wang. Surface/Interface Modulation in Oxygen Evolution Reaction [J]. Progress in Chemistry, 2022, 34(3): 547-556.
[8] Nan Wang, Yuqi Zhou, Ziye Jiang, Tianyu Lv, Jin Lin, Zhou Song, Lihua Zhu. Synergistically Consecutive Reduction and Oxidation of Per- and Poly-Halogenated Organic Pollutants [J]. Progress in Chemistry, 2022, 34(12): 2667-2685.
[9] Chenyang Qi, Jing Tu. Antibiotic-Free Nanomaterial-Based Antibacterial Agents:Current Status, Challenges and Perspectives [J]. Progress in Chemistry, 2022, 34(11): 2540-2560.
[10] Lingxiang Guo, Juping Li, Zhiyang Liu, Quan Li. Photosensitizers with Aggregation-Induced Emission for Mitochondrion-Targeting Photodynamic Therapy [J]. Progress in Chemistry, 2022, 34(11): 2489-2502.
[11] Meng Pengfei, Zhang Xiaorong, Liao Shijun, Deng Yijie. Enhancing the Performance of Atomically Dispersed Carbon-Based Catalysts Through Metallic/Nonmetallic Elements Co-Doping Towards Oxygen Reduction [J]. Progress in Chemistry, 2022, 34(10): 2190-2201.
[12] Yuan Su, Keming Ji, Jiayao Xun, Liang Zhao, Kan Zhang, Ping Liu. Catalysts for Catalytic Oxidation of Formaldehyde and Reaction Mechanism [J]. Progress in Chemistry, 2021, 33(9): 1560-1570.
[13] Jia Liu, Jun Shi, Kun Fu, Chao Ding, Sicheng Gong, Huiping Deng. Heterogeneous Catalytic Persulfate Oxidation of Organic Pollutants in the Aquatic Environment: Nonradical Mechanism [J]. Progress in Chemistry, 2021, 33(8): 1311-1322.
[14] Yifan Zhao, Qiyun Mao, Xiaoya Zhai, Guoying Zhang. Structural Defects Regulation of Bismuth Molybdate Photocatalyst [J]. Progress in Chemistry, 2021, 33(8): 1331-1343.
[15] Xiaojing Li, Yonghong Li, Fuhang Yu, Weiyan Qi, Ye Jiang, Qianwen Lu. Catalysts for Removal of Xylene by Catalytic Oxidation [J]. Progress in Chemistry, 2021, 33(12): 2203-2214.