Progress in catalysis in China during 1982-2012: Theory and technological innovations

doi:10.1016/S1872-2067(11)60463-4

Abstract

Abstract:

The development of catalytic science and technology in China dates from the early 20th century. In the beginning, the efforts of our predecessors gave an initial period of steady development. Then in the 1960s, there were serious obstacles by human factors during which the development of catalysis was stagnant and we lost more than ten years of development opportunity. In the 1980s, catalysis in China entered a period of rapid expansion. During this period, three main research sectors, namely, Chinese Academy of Sciences (CAS), universities, and industries, were rapidly established and development recovered. Researchers carried out research using reaction kinetics as the main method and means. In basic research, the discovery of novel catalytic materials, characterization methods, and novel catalytic reactions were the main research directions. The introduction of surface science and nanoscience has greatly promoted and deepened the basic exploration of catalysis. Catalysis is now changing from an art to a science. In different historical periods, researches in applied catalysis were determined by national needs and these have made notable contributions to many fields, such as the optimal utilization of coal, petroleum and natural gas, advanced materials, and protection of environment as well as human health. Currently, China has begun contributing to important progress in catalysis and is moving towards becoming a regular contributor.

Key words: Catalysis, Progress, Theory, Technology

XIN Qin, LIN Liwu. Progress in catalysis in China during 1982-2012: Theory and technological innovations[J]. Chinese Journal of Catalysis, 2013, 34(3): 401-435.

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References

[1] Editorial Committee of Chinese Chemical Society. Fifty Years of Chemistry in China: 1932-1982.Beijing: Sci Press(中国化学会编辑委员会. 中国化学五十年:1932-1982. 北京:科学出版社), 1985

[2] Wang H L, Xin Q. Appl Catal A, 1999, 178: 133

[3] Lin L W, Liang D B, Wang Q X, Cai G Y. Catal Today, 1999, 51: 59

[4] Zhang D Y. Theoretical Study on Surface Bond in Heterogeneous Catalysis. In: Collection of Reports for the 3rd Conference of Department of Technical Science, Chinese Academy of Sciences (张大煜. 多相催化研究中的表面键理论研究. 见: 中国科学院第三次技术科学部学部大会报告汇编). 1960. 48

[5] Zhang D Y, Guo X X. Highlights for Surface Bond Theory. In: Collection of Reports for Forum of Catalysis Theory, Dalian, Chinese Academy of Sciences (张大煜, 郭燮贤. 表面键理论的基本要点. 见: 中国科学院大连催化理论座谈会报告汇编). 1961. 4

[6] Guo X X, Xin M, Zhai R Sh, Cao Y M, Zhang L H, Wang D Zh. Progr Nat Sci(郭燮贤,辛梅,翟润生,曹玉明,张林虎,王德峥. 自然科学进展), 1994, 4: 665

[7] Guo X X, Xin M, Zhai R S.J Phys Chem, 1994,98:7175

[8] Fu G, Chen Z N, Xu X, Wan H L. J Phys Chem A, 2008, 112: 717

[9] Tsai K R, Wan H L. In: Tsutsui M, Ishii Y, Huang Y Z eds. Fundamental Research in Organometallic Chemistry. New York: Sci Press, 1982. 1

[10] Chen S Y, Lü X L, Peng Sh Y. Chin J Catal(陈诵英, 吕秀莲, 彭少逸. 催化学报),1982, 13: 165

[11] Min E Z. Research and Development of Industrial Catalysts: My Practice and Exploration. Beijing: China Petrochem Press(闵恩泽. 工业催化剂的研制与开发——我的实践与探索. 北京: 中国石化出版社), 1997

[12] Min E Z. Way of Seeking in Industry Catalysis. Shijiazhuang: Hebei Edu Press(闵恩泽. 工业催化之路的求索. 石家庄: 河北教育出版社), 2003

[13] Wu Y. Catalytic Chemistry. Beijing: Sci Press(吴越. 催化化学. 北京: 科学出版社), 1998

[14] Wu Y, Yang X G. Modern Catalysis Principles. Beijing: Sci Press (吴越, 杨向光. 现代催化原理. 北京: 科学出版社), 2005

[15] Wu Y. Fundamental and Applied Catalysis. Beijing: Chem Ind Press(吴越. 应用催化基础. 北京: 化学工业出版社), 2009

[16] Fang X P, Li Sh B, Lin J Zh, Gu J F, Yang D X. J Mol Catal (China)(方学平,李树本,林景治,顾靖芳,杨得信. 分子催化),1992, 8: 255

[17] Fang X P, Li Sh B, Lin J Zh, Chu Y L. J Mol Catal (China)(方学平, 李树本, 林景治, 禇衍来. 分子催化), 1992, 6:427

[18] Chen P, Zhang H B, Lin G D, Hong Q, Tsai K R.Carbon, 1997, 35: 1495

[19] Wu H, Yuan Q, Zhu B L. J ChemInd Eng(China)(吴华, 袁权, 朱葆琳. 化工学报), 1984,35:283

[20] Tang Y Q, Xie Y Ch, Gui L L. Progr Nat Sci(唐有祺, 谢有畅, 桂琳琳. 自然科学进展),1994, 4: 642

[21] Chen Y, Zhang L F. Catal Lett, 1992, 12: 51

[22] Bao X H, Deng J F, Dong S Z. Acta Chim Sin, 1986, 44: 619

[23] Shen Zh Q, Yang M J, Cai Y P, Shi M X. Sci Chin, Ser B(沈之荃, 杨慕杰, 蔡一平, 石明孝. 中国科学B辑), 1983, 13:119

[24] Shen Zh Q, Yang M J, Shi M X, Cai Y P. J PolymSci, Polym Lett Ed,1982, 20: 411

[25] Zhang Y F, Chen X H, Shen Zh Q.Inorg Chim Acta, 1989, 155: 263

[26] Shen Zh Q, Zhang Y F, Peng J D, Ling L. Sci Chin, Ser B(沈之荃，张一烽，彭建德, 凌珑. 中国科学B辑), 1989, 19: 1028

[27] Li W Zh, Liang Ch H, Zhou W J, Qiu J Sh, Zhou Zh H, Sun G Q, Xin Q.JPhys Chem B,2003, 107: 6292

[28] Zhou W J, Zhou Z H, Song Sh Q, Li W Zh, Sun G Q, Tsiakaras P, Xin Q.Appl Catal B, 2003, 46: 273

[29] Li W Zh, Liang Ch H, Qiu J Sh, Zhou W J, Han H M, Wei Zh B, Sun G Q, Xin Q.Carbon, 2002,40: 791

[30] Zhou W J, Song S Q, Li W Z, Zhou Z H, Sun G Q, Xin Q, Douvartzides S, Tsiakaras P.J Power Sources, 2004, 140: 50

[31] JiangLH, SunGQ, ZhouZH,Zhou W J, XinQ. Catal Today,2004, 93: 665

[32] Jiang L H, Sun G Q, Sun Sh G, Liu J G, Tang Sh H, Li H Q, Zhou B, Xin Q.Electrochim Acta, 2005, 50: 5384

[33] Zhou W J, Zhou B, Li W Z, Zhou Z H, Song S Q, Sun G Q, Xin Q, Douvartzides S, Goula M, Tsiakaras P. J Power Sources, 2004, 126: 16

[34] Wu G, Chen Y S, Xu B Q. Electrochem Commun, 2005, 7: 1237

[35] Zhao D, Xu B Q. Angew Chem, Int Ed, 2006, 45: 4955

[36] Fu Q, Li WX, Yao YX, Liu HY, Su HY, Ma D, Gu XK, Chen LM,Wang Z, Zhang H, Wang B, Bao XH. Science, 2010, 328: 1141

[37] Pan X L, Fan Zh L, Chen W, Ding Y J, Luo H Y, Bao X H.Nature Mater, 2007, 6: 507

[38] Xie X W, Li Y, Liu ZhQ, Haruta M, Shen W J. Nature, 2009,458: 746

[39] Qiao B T, Wang A Q, Yang X F, Allard L F, JiangZh, Cui Y T, Liu J Y, LiJ, ZhangT. Nat Chem, 2011, 3: 634

[40] Xin Q, Guo X X, Silvy R P, GrangeP, Delmon B. Proc Int Congr Catal, 1988, 1: 66

[41] Xin Q, Gao X T. Progr Natural Sci, 1995, 5: 317

[42] Yan Y Sh, Xin Q, Jiang Sh C, Guo X X. J Catal, 1991, 131: 234

[43] Xin Q,Luo M F.Modern Catalytic Research Methods.Beijing:Sci Press(辛勤, 罗孟飞. 现代催化研究方法. 北京: 科学出版社), 2009

[44] Xin Q. Research Methods for Solid Catalysts. Beijing:Sci Press(辛勤. 固体催化剂研究方法. 北京: 科学出版社), 2005

[45] Xin Q. In-Situ Technology in Research of Catalysis.Beijing: Peking Univ Press(辛勤. 催化研究中的原位技术. 北京: 北京大学出版社), 1993

[46] Zhang W P, Xu Sh T, Han X W, Bao X H. Chem Soc Rev, 2012, 41: 192

[47] Zhang L, Ren Y H, Yue B, He H Y. Chem Commun, 2012, 48: 2370

[48] Wang Ch Y, Li W Zh. Six Decades of Applied Research onHeterogeneous Catalysis at Dalian Institute of Chemical Physics, CAS (王承玉, 李文钊. 中科院大连化物所多相催化应用研究六十年). 2010. 123

[49] Mu R T, Fu Q, Jin L, Yu L, Fang G Z, Tan D L, Bao X H. Angew Chem, Int Ed, 2012, 51:4856

[50] Fan F T, Feng Zh Ch, Li C. Acc Chem Res, 2010, 43: 378

[51] Zhao Y H, Sun K J, Ma X F, Liu J X, Sun D P, Su H Y, Li W X. Angew Chem, Int Ed, 2011, 50: 5335

[52] Wang B, Ma X F, Caffio M, Schaub R,Li W X.Nano Lett, 2011, 11: 424

[53] Wang H F, Liu Zh P. J Am Chem Soc, 2008, 130: 10996

[54] Wang L Sh, Tao L X, Xie M S, Xu G F, Huang J S, Xu Y D. Catal Lett, 1993, 21: 35

[55] Zhao D B, Kou Y, Min E Z. Catal Today, 2002, 74: 157

[56] Yang G Y, Ma X F, Xu J. J Am Chem Soc, 2004, 126: 10542

[57] Tong X L, Xu J, Miao H. Adv Synth Catal, 2005, 347: 1953

[58] Chen Ch, Xu J, Zhang Q H, Ma Y F, Zhou L P, Wang M. Chem Commun, 2011,47: 1336

[59] Zhou L P, Yang G Y, Zhang W, Sun Zh Q, Gao J, Miao H, Chen Ch, Ma H, Li X Q, Zhang Q H, Wang F, Tong X L, Xu J. Progr Nat Sci (周利鹏, 杨贯羽, 张伟, 孙志强, 高进, 苗虹, 陈晨, 马红, 李晓强, 张巧红, 王峰, 仝新利, 徐杰. 自然科学进展), 2007, 17: 281

[60] Xi Z W, Ning Zh, Yu S, Li K L.Science,2001, 292: 1139

[61] Chen H, Li Y Z, Li R X, Cheng P M, Li X J. J Mol Catal A, 2003, 198: 1

[62] Yuan M L, Chen H, Li R X, Li Y Z, Li X J. Appl Catal A, 2003, 251: 181

[63] Ma H X, Chen H, Zhang Q, Li X J.J Mol Catal A, 2003, 196: 131

[64] Jiang HY, Yang CF, Li C, Fu HY, Chen H, Li RX, Li XJ. Angew Chem, Int Ed, 2008,47: 9240

[65] Shao ZP, Yang WSh, Cong Y, Dong H, Tong J, Xiong GX. J Membr Sci, 2000, 172: 177

[66] Yang W Sh, Wang H H, ZhuX F,Lin L W. Top Catal,2005, 35: 155

[67] Xu XC, Yang WSh, Liu J, Lin LW. Adv Mater,2000, 12: 195

[68] Li YS, Yang WSh.J Membr Sci,2008, 316: 3

[69] Liu X L, Li YS, Zhu GQ, Ban YJ, Xu LY, Yang WSh. Angew Chem, Int Ed , 2011, 50:10636

[70] Yin Y Q, Hu B, Zhang W Q, Zhang Y H, Zhang J. The Matal Fragmaent Exchange Reaction. New York: Nova Sci Publishers, 2006

[71] Xia Ch G, Tang Z H, Chen J, Zhang X Z, Li Z, Guo Y X. US Patent 7244854. 2007

[72] Chen J, Tang Z H, Xia Ch G, Zhang X Z, Li Z. US Patent 7560599. 2009

[73] Wang DE, Jiang HF,ZongX, Xu QA,MaY,LiGL,LiC.Chem EurJ,2011,17:127

[74] Yan H J, Yang J H, Ma G J, Wu G P, Zong X, Lei Z B, Shi J Y, Li C.J Catal, 2009, 266: 165

[75] Zhang J, Xu Q, Feng Zh Ch, Li M R, Li C.Angew Chem, Int Ed, 2008, 47: 1766

[76] Zong X, Yan H J, Wu G P, Ma G J, Wen F Y, Wang L, Li C.J Am Chem Soc, 2008, 130: 7176

[77] Ji N,Zhang T, Zheng M Y, Wang A Q, Wang H, Wang X D, Chen J G.Angew Chem, Int Ed, 2008, 47: 8510

[78] Ding K L, Du H F, Yuan Y, Long J.Chem Eur J,2004, 10: 2872

[79] Ding K L, Wang Z, Wang X W, LiangY X, Wang X S.Chem Eur J,2006, 12: 5188

[80] Long J, Hu J Y, Shen X Q, Ji B N, Ding K L.J Am Chem Soc, 2002, 124:10

[81] Wang X W, Ding K L.J Am Chem Soc, 2004, 126: 10524

[82] Yang Q H, Han D F, Yang H Q, Li C.Chem Asian J, 2008, 3: 1214

[83] Xie Y Ch, Tang Y Q.Adv Catal,1990, 37: 1

[84] Wang Ch Y, Li W Zh. Six Decades of Applied Research onHeterogeneous Catalysis at Dalian Institute of Chemical Physics, CAS (王承玉, 李文钊. 中科院大连化物所多相催化应用研究六十年). 2010, 40

[85] Tian HJ, Zhang T, Sun X Y, Liang D B,Lin LW.Appl Catal A, 2001, 210: 55

[86] Tao K Y, Li W, Li H X, Qi X M. Appl Catal A, 1996, 139: 43

[87] Xie Z K. Porous Catalytic Materials with New Structure and Improved Performance. Beijing: Sinopec Press(谢在库. 新结构高性能多孔催化材料. 北京: 中国石化出版社), 2010

[88] Xiao FSh,Han Y, Yu Y, MengX J, Yang M, Wu S. J Am Chem Soc, 2002, 124: 888

[89] Han Y, Wu S, Sun Y Y, Li D S, Xiao F Sh, Liu J, Zhang X Z. Chem Mater, 2002, 14: 1144

[90] Wu S, Han Y, Zou Y C, Song J W, Zhao L, Di Y, Liu S Z, Xiao F Sh. Chem Mater, 2004, 16: 486

[91] Xiao F Sh, Wang L F, Yin C Y, Lin K F, Di Y, Li J X, Xu R R, Su D S, Schlogl R, Yokoi T. Angew Chem, Int Ed, 2006,45:3090

[92] Wang X Sh, Guo H Ch. ACS Symposium Series. Chapter 14. 2000. 738

[93] Wang HF, Guo YL, Lu GZh, Hu P.Angew Chem, Int Ed, 2009, 48:8289

[94] Li HY, Wang HF, Gong XQ, Guo Y, Guo Y, Lu G Zh, Hu P.Phys Rev B, 2009, 79: 193401/1

[95] Wang J Z, Zhao L W, Shi H M, He J.Angew Chem, Int Ed, 2011, 50: 9171

[96] Shi H M, He J. J Catal, 2011, 279: 155

[97] Shi H, Yu C G, He J. J Catal, 2010, 271: 79

[98] Zhang FZ, Zhao XF, Feng CH, Li B, Chen T , Lu W, Lei XD, Xu SL. ACS Catal, 2011, 1: 232

[99] Peng J J, Deng Y Q. Tetrahedron Lett, 2001, 42: 5917

[100] Peng J J, Deng Y Q.New J Chem, 2001, 25: 639

[101] Yang H Z, Gu Y L, DengY Q, Shi F. Chem Commun, 2002: 274

[102] Qiao K,Deng Y Q.J Mol Catal A, 2001, 171: 81

[103] Shi F,Deng Y Q.J Catal, 2002, 211: 548

[104] Shi F, Zhang Q H, Ma Y B, He Y D, Deng Y Q.J Am Chem Soc, 2005, 127: 4182

[105] Tian Zh J, Liang D B, Lin L W. Chin J Catal(田志坚,梁东白,林励吾. 催化学报), 2009, 30: 705

[106] Tian Zh J, Wang L, Xu Zh Sh, Xu Y P, Hu Sh, Qu W, Wang B Ch, Lin L W(田志坚,王磊,徐竹生,徐云鹏,胡胜,曲炜,王炳春,林励吾). CN Patent 1721074. 2006

[107] Wei Y, Tian Zh J, Gies H, Xu R Sh, Ma H J, Pei R Y, Zhang W P, Xu Y P, Wang L, Li K D.Angew Chem, Int Ed, 2010, 49: 5367

[108] Ma H J, Tian Zh J, Xu R Sh, Wang B Ch, Wei Y, Wang L, Xu Y P, Zhang W P, Lin L W. J Am Chem Soc, 2008, 130:8120

[109] Wang L, Xu Y P, Wei Y, Duan J Ch, Chen A B, Wang B Ch, Ma H J, Tian Zh J, Lin L W. J Am Chem Soc, 2006, 128:7432

[110] Xu Y P, Tian Zh J, Wang ShJ, Hu Y, Wang L, Wang BCh, Ma YCh, Hou L, Yu JY, Lin L W.Angew Chem, Int Ed, 2006, 45: 3965

[111] Liang Q H, Wen X W, Lin Z Q. Overview on Science and Technology of Contemporary China. Beijing: China Sci Technol Press(梁清诲, 文兴吾, 林子卿. 当代中国科学技术总览. 北京:中国科学技术出版社),1992

[112] National Office for Science and Technology Award. The National Three Awards Catalog (Annual Directory). Beijing: China Science and Technology Press (国家科学技术奖励工作办公室资料. 国家三大奖目录(年度目录). 北京: 中国科学技术出版社)

[113] He H, Li J H, He H, Shangguan W F. Environmental Catalysis: Principles and Applications. Beijing: Sci Press (贺泓, 李俊华, 何洪, 上官文峰. 环境催化——原理及应用. 北京: 科学出版社), 2008

[114] Chen Y X, Liu Zh Sh, Wang X, Yang Y. Petrochem Safety Envir Protect Technol(陈玉香,刘忠生,王新,杨英. 石油化工安全环保技术), 2009, 25(3): 48

[115] Zhao M, Li X, Zhang L H, Zhang C, Gong M C, Chen Y Q.Catal Today, 2011, 175:430

[116] Chen Y Q, Guo J X, Gong M Ch(陈耀强, 郭家秀, 龚茂初).CN Patent1824384A.2006

[117] Gong M Ch, Chen Y Q, Xu Q H, Li X W(龚茂初, 陈耀强, 许清淮, 李孝维). CN Patent1408645A. 2003

[118] Chen Y Q, Gong M Ch, Wang M, Zhao M(陈耀强, 龚茂初, 王敏, 赵明).CN Patent1817447A. 2006

[119] Lü Zh, Chen Y Q, Gong M Ch, Zhao M(吕臻, 陈耀强, 龚茂初, 赵明). CN Patent1695798A. 2005

[120] Li HY, Wang HF, Guo Y L, Lu GZ, Hu P.Chem Commun, 2011: 6105

[121] Zhan WCh, GUO Y, Gong XQ, Guo YL, Wang YQ, Lu GZh.Sci Sin(Chim)(詹望成, 郭耘, 龚学庆, 郭杨龙, 王艳芹,卢冠忠. 中国科学:化学), 2012, 42: 433

[122] Chen C C, Ma W H, Zhao J C. Chem Soc Rev, 2010, 39: 4206

[123] Yu H T, Quan X. Progr Chem(于洪涛, 全燮. 化学进展), 2009, 21: 406

[124] Zhang L W, Zhu Y F.Catal Sci Technol, 2012, 2: 694

[125] Ondrey G. ChemEng, 2011, 118(2): 16

[126] Zhang C H, Yang Y, Teng B T, Li T Z, Zheng H Y, Xiang H W, Li Y W. J Catal, 2006, 237: 405

[127] Teng B T, Chang J, Zhang C H, Cao D B, Yang J, Liu Y, Guo X H, Xiang H W, Li Y W. Appl Catal A, 2006, 301: 39

[128] Yao Y G, Lin L, Pan P B, Li Zh J, Zhou Zh F, Yang J X, Tan Y Y(姚元根, 林凌, 潘鹏斌, 李兆基, 周张锋, 杨锦霞, 覃业燕). CN Patent102463122. 2012

[129] Yao Y G,Yang J X, Li Zh J, Pan P B, Zhou Zh F, Lin L,Tan Y Y(姚元根, 杨锦霞, 李兆基, 潘鹏斌, 周张锋, 林凌, 覃业燕). CN Patent102247847. 2011

[130] Yao Y G, Lin L, Pan P B,Li Zh J, Zhou Zh F, Yang J X, Tan Y Y(姚元根, 林凌, 潘鹏斌, 李兆基, 周张锋, 杨锦霞, 覃业燕). CN Patent102139213. 2011

[131] Li Zh J, Yao Y G, Pan P B, Lin L, Zhou Zh F, Tan Y Y, Cheng J K(李兆基, 姚元根, 潘鹏斌, 林凌, 周张锋, 覃业燕, 程建开). CN Patent101 869 838. 2010