[1] Higman C S, Lanterna A E, Marin L, Scaiano J C, Fogg D E. Catalyst decomposition during olefin metathesis yields isomerization-active ruthenium nanoparticles[J].Chemical Catalyst and Chemistry, 2016, 8(15):2446-2449.
[2] Asinger F, Fell B, Collin G. Über die doppelbindungsisomerisierung bei höhermolek olefinen, IV. Über den bindungsisomerisierenden einflu? verschiedener verbindungen auf n-undecene[J]. Chemische Berichte, 1963, 96(3):716-735.
[3] Ahn J H, Ihm S K, Park K S. The effects of the local concentration and distribution of sulfonic acid groups on 1-butene isomerization catalyzed by macroporous ion-exchange resin catalysts[J]. Journal of Catalysis, 1988, 113(2):434-443.
[4] Petrus L, Roo R W D, Stamhuis E J, Joosten G E H. Kinetics and equilibria of the hydration of propene over a strong acid ion exchange resin as catalyst[J]. Chemical Engineering Science, 1984, 39(3):433-446.
[5] Slomkiewicz P M. Isomerization of C-4 alkenes catalysed by macroporous ion exchange resin[J]. Reactive & Functional Polymers, 1997, 33(2):299-304.
[6] Gee J C, Williams S T. Dimerization of linear olefins on Amberlyst® 15:Effects of chain length and double-bond position[J]. Journal of Catalysis, 2013, 303:1-8.
[7] Uematsu T, Tsukada K, Fujishima M, Hashimoto H. The isomerization of 1-butene over cation-exchanged acidic resin[J]. Chemischer Informationsdienst, 1974, 5(23):369-375.
[8] Gee J C, Prampin D S. A kinetic and mechanistic study of the double bond and skeletal isomerization of 1-tetradecene on SAPO-11[J]. Applied Catalysis A General, 2009, 360(1):71-80.
[9] Harmer M A, Sun Q. Solid acid catalysis using ion-exchange resins[J]. Applied Catalysis A General, 2001, 221(1-2):45-62.
[10] Sun Q, Harmer M A, Farneth W E. But-1-ene isomerization over Nafion(R) resin/silicacomposite catalyst[J]. Chemical Communications,1996,10(10):1201-1202.
[11] Slomkiewicz P M. Isomerization of C-4 alkenes catalysed by macroporous ion exchange resin[J]. Reactive & Functional Polymers, 1997, 33(2):299-304.
[12] Ghosh R, Bandyopadhyay A R, Jasra R. Mechanistic study of the oligomerization of olefins[J]. Industrial & Engineering Chemistry Research, 2014, 53(18):47-55.
[13] Onopchenko A, Cupples B L, Kresge A N. Boron fluoride-catalyzed oligomerization of alkenes:structures, mechanisms, and properties[J].Industrial & Engineering Chemistry Product Research & Development, 1983, 22(2):182-191.
[14] Höchtl M, Jentys A, Vinek H. Isomerization of 1-pentene over SAPO, CoAPO (AEL, AFI) molecular sieves and HZSM-5[J]. Applied Catalysis A General, 2001, 207(1-2):397-405.
[15] Bruno J E, Dooley K M. Double-bond isomerization of hexadecenes with solid acid catalysts[J]. Applied Catalysis A General, 2015, 497:176-183.
[16] Modhera B, Chakraborty M, Parikh P A. 1-Hexene isomerization over nano-crystalline zeolite beta:effects of metal and carrier gases on catalytic performance[J].Catalysis Letters, 2009, 132(1):168-173.
[17] Shi G, Shen J. Skeletal isomerization of 1-hexene over sulfided Co/Co-MCM-41 catalysts[J]. Energy & Fuels, 2009, 23(1):320-326.
[18] Rao Y, Kang J, Antonelli D. 1-Hexene isomerization over sulfated mesoporous Ta oxide:the effects of active site and confinement[J]. Journal of the American Chemical Society, 2008, 130(2):394-395.
[19] Rao Y, Kang J, Trudeau M. Investigation of the catalytic activities of sulfated mesoporous Ti, Nb, and Ta oxides in 1-hexene isomerization[J]. Journal of Catalysis, 2009, 266(1):1-8.
[20] Ozaki A, Tsuchija S. The isomerization of n-butenes over a deuterated ion exchange resin[J]. Journal of Catalysis, 1966, 5(3):537-539.
[21] Kalló D, Preszler I. n-Butene isomerization on acidic ion-exchange resin[J].Journal of Catalysis,1968,12(1):1-4.
[22] Manassen J, Khalif S. Organic polymers:correlation between their structure and catalytic activity in heterogeneous systems:Ⅲ. acid-type catalysis, sulfonated and phosphonated polyphony[J]. Journal of Catalysis, 1967, 7(2):110-116.
[23] Manassen J, Klein F S. 822. Reactions of n-butene and butan-2-ol in dilute acid. The elucidation of the mechanism and the intermediate in elimination from secondary alcohols and in the hydration of olefins[J]. Journal of the Chemical Society, 1960, 3(1):4203-4213.
[24] Takayoshi U. The isomerization of n-butenes over acidic ion-exchange resin[J]. Bull. Chem. Soc. Jpn., 1972, 45:3329-3333.
[25] Lutz E F. Shell higher olefins process[J]. Journal of Chemical Education, 1986, 63:202.
[26] Fritz H E, Atkins K E, O'Connor G L. Corporation (United Carbide Co., USA), production of alkylidenebicycloheptenes[P]. US patent, 3.347.944, 1967.
[27] Hassam M, Taher A, Arnott G E, Green I R, van Otterlo W A L. Isomerization of allylbenzenes[J]. Chemical Reviews, 2015, 115(11):5462-5569.
[28] Jr L S G, Mcdonough J M. Selective isomerization of 1-olefins to 2-olefins[P]. US patent, 3697616 A. 1972.
[29] Hu S, Liu D, Li L, Guo Z, Chen Y, Borgna A. Highly selective 1-heptene isomerization over vanadium grafted mesoporous molecular sieve catalysts[J]. Chemical Engineering Journal, 2010, 165(3):916-923.
[30] Gajda G J. Butene isomerization process[P]. US patent, 5132484 A. 1992.
[31] Gajda G J, Barger P T. Olefin isomerization process[P]. US patent, 5191146A.1993.
[32] Gajda G J, Barger P T. Pentene isomerization and etherification[P]. US patent, 005292984A. 1994.
[33] Gajda G J, Barger P T, Abrevaya H. Olefin isomerization process[P]. US patent, 05336831A. 1994.
[34] Lawson R J, Richmond D M, Gajda G J, BargerP T. Pentene isomerization process[P]. US patent, 5367101 A. 1994.
[35] Gajda G J, Barger P T. Olefin isomerization process[P]. US patent, 005463161A. 1995.
[36] F ttinger K, Kinger G, Vinek H. 1-Pentene isomerization over zeolites studied by in situ, IR spectroscopy[J]. Catalysis Letters, 2003, 85(1):117-122.
[37] F ttinger K, Kinger G, Vinek H. 1-Pentene isomerization over FER and BEA[J]. Applied Catalysis A General, 2003, 249(2):205-212.
[38] Müller H, Koehl H, Pommer H. (BASF, USA) Production of 2-methyl-2-hepten-6-one[P]. US patent, 3.670.028, 1972.
[39] Peters B C. Olefin isomerization process[P]. US patent, 4587374, 1986.
[40] Casey C P, Cyr C R. Iron carbonyl catalyzed isomerization of 3-ethyl-1-pentene. multiple olefin isomerizations via a π-allyl metal hydride intermediate[J]. Journal of the American Chemical Society, 1973, 95(7):2248-2253.
[41] Cerveny L, Krejeikova A, Marhoul A, Ruzicka V. Isomerization of eugenol to isoeugenol[J]. Reaction Kinetics and Catalysis Letters, 1987, 33(2):471-476.
[42] Clive D L J, Sannigrahi M, Hisaindee S. Synthesis of(±)-puraquinonic acid:an inducer of cell differentiation[J]. The Journal of Organic Chemistry, 2001, 66(3):954-961.
[43] Castonguay A, Brassard P. C-Alkylation of 1,3-dihydroxyanthraquinones.total syntheses of (±)-averufin and (±)-bipolarin[J]. Canadian Journal of Chemistry, 1977, 55(8):1324-1332.
[44] Shao M B, Liu G Y, Zhao J J, Wang X Y, Wang J H. RuCl3·3H2O mediated olefin isomerizations in ionic liquids:a highly recyclable system for olefin isomerizations[J]. Chemical Research in Chinese Universities, 2012, 28(1):67-69.
[45] Fanun M, Ayad Z, Mudalal S, Dahoah S, Meltzer D, Schwarze M, Schomacker R, Blum J. Characterization of water/sucrose laurate/n-propanol/allylbenzene microemulsions[J]. Journal of Surfactants and Detergents, 2012, 15(4):505-512.
[46] Cooper A C, Caulton K G. Identification of an elusive catalyst:IrH (η2-C6H4PtBu2) (Cl) (PtBu2Ph) as a precursor for C=C bond migration[J]. Inorganica Chimica Acta, 1996, 251(s 1-2):41-51.
[47] Baxendale I R, Lee A L, Ley S V. A concise synthesis of carpanone using solid-supported reagents and scavengers[J]. Journal of the American Chemical Society, Perkin Transactions, 2002, 1:1850-1857.
[48] Reddy M R, Periasamy M. Isomerization of 1-alkenes using the Na2Fe (Co)4/CuCl and Na2Fe (Co)4/BrCH2CH2Br reagent systems[J]. Journal of Organometallic Chemistry, 1995, 491:263-266.
[49] Roos L, Orchin M. Allylbenzene isomerization catalysed by deuteriocobalt tetracarbonyl[J]. Journal of the American Chemical Society, 1965, 87(23):5502-5504.
[50] Cirjak L M, Sutherland L. Process for the photocatalytic isomerization of olefins utilizing a mixed metal cluster[P].US patent, 4504371. 1985.
[51] Xiao T C, Ma W J. Method of double-bond migrate of terminal olefins[P].GB patent, 053532. 2016.
[52] Tooley P A, Arndt L W, Darensbourg M Y. Olefin isomerization catalysis by heterobimetallic hydrides, HFeM(CO)8L-(M=Cr,Mo,W;L=Co,Pr)[J].Journal of the American Chemical Society, 1985, 107(8):2422-2427.
[53] Elhage A, Lanterna A E, Scaiano J C. Tunable photocatalytic activity of palladium-decorated TiO2:non-hydrogen-mediated hydrogenation or isomerization of benzylsubstituted alkenes[J]. American Chemical Society Catalysis, 2017, 7(1):250-255.
[54] Onishi M, Oishi S, Sakaguchi M, Takaki I, Hiraki K. Chemical reactivities of coordinatively unsaturated hydridotris-(phosphonite)-cobalt(Ⅰ) species photogenerated towards allylic and related-compounds[J]. Bulletin of the Chemical Society of Japan, 1986, 59(12):3925-3930.
[55] Onishi M, Hiraki K, Ishida Y, Fukunaga T. Facile electrogeneration of a 17-electron species from an inert hydridophosphonitecobalt(Ⅰ) for catalytic double-bond migration of 3-phenylpropene[J]. Chemistry Letters, 1986, 15(3):333-336. |