2.10 C—O Bond Formation by Arene C—H Activation via Biomimetic and Organocatalytic Oxidation
Buch
Herausgeber: Yu, J.-Q.
Titel: Catalytic Transformations via C-H Activation 2
Print ISBN: 9783132057210; Online ISBN: 9783132404137; Buch-DOI: 10.1055/b-004-129675
1st edition © 2015 Thieme. All rights reserved.
Georg Thieme Verlag KG, Stuttgart
Fachgebiete: Organische Chemie
Science of Synthesis Reference Libraries
Übergeordnete Publikation
Titel: Science of Synthesis
DOI: 10.1055/b-00000101
Typ: Mehrbändiges Werk
Abstract
This chapter is a summary of selected reactions for C—O bond formation via arene C—H bond activation by biomimetic and organocatalytic oxidation catalysts, which include manganese, iron, copper, and vanadium complexes as well as photocatalysts.
Schlüsselwörter
arene complexes - arenes - hydroxylation - oxidation - oxygenation - quinones - phenols - porphyrins - iron catalysts - iron complexes - manganese catalysts - manganese complexes - ruthenium catalysts - ruthenium complexes - hydroperoxides - hydroquinones - copper catalysts - copper complexes- 4 Bertini I, Cremonini MA, Ferretti S, Lozzi I, Luchinat C, Viezzoli MS. Coord. Chem. Rev. 1996; 151: 145
- 7 Fox BG, Comprehensive Biological Catalysis: A Mechanistic Reference. Sinnott M. Academic; London 1998
- 14 Matsunaga I, Ueda A, Sumimoto T, Ichihara K, Ayata M, Ogura H. Arch. Biochem. Biophys. 2001; 394: 45
- 16 Matsunaga I, Yokotani N, Gotoh O, Kusunose E, Yamada M, Ichihara K. J. Biol. Chem. 1997; 272: 23592
- 18 Girhard M, Schuster S, Dietrich M, Dürre P, Urlacher VB. Biochem. Biophys. Res. Commun. 2007; 362: 114
- 20 Cytochrome P450: Structure, Mechanism and Biochemistry. Ortiz de Montellano PR. Plenum; New York 1995
- 22 Bartoli J.-F, Mouries-Mansuy V, Le Barch-Ozette K, Palacio M, Battioni P, Mansuy D. Chem. Commun. (Cambridge) 2000; 827
- 23 Chorghade MS, Dezaro DA, Hill DR, Lee EC, Pariza RJ, Andersen JV, Hansen KT, Dolphin DH. Bioorg. Med. Chem. Lett. 1994; 4: 2867
- 25 Yamazaki H, Inoue K, Chiba K, Ozawa N, Kawai T, Suzuki Y, Goldstein JA, Guengerich FP, Shimada T. Biochem. Pharmacol. 1998; 56: 243
- 27 Mancy A, Antignac M, Minoletti C, Dijols S, Mouries V, Ha Duong NT, Battioni P, Dansette PM, Mansuy D. Biochemistry 1999; 38: 14264
- 30 Othman S, Mansuy-Mouries V, Bensoussan C, Battioni P, Mansuy D. C. R. Acad. Sci., Ser. IIc 2000; 3: 751
- 38 Karlsson A, Parales JV, Parales RE, Gibson DT, Eklund H, Ramaswamy S. Science (Washington, D. C.) 2003; 299: 1039
- 41 Pikus JD, Studts JM, Achim C, Kauffmann KE, Münck E, Steffan RJ, McClay K, Fox BG. Biochemistry 1996; 35: 9106
- 43 Shields MS, Reagin MJ, Gerger RR, Campbell R, Somerville C. Appl. Environ. Microbiol. 1995; 61: 1352
- 56 Mekmouche Y, Ménage S, Pécaut J, Lebrun C, Reilly L, Schuenemann V, Trautwein A, Fontecave M. Eur. J. Inorg. Chem. 2004; 3163
- 57 Ménage S, Galey JB, Dumats J, Hussler G, Seité M, Luneau IG, Chottard G, Fontecave M. J. Am. Chem. Soc. 1998; 120: 13370
- 58 Furutachi H, Murayama M, Shiohara A, Yamazaki S, Fujinami S, Uehara A, Suzuki M, Ogo S, Watanabe Y, Maeda Y. Chem. Commun. (Cambridge) 2003; 1900
- 60 Makhlynets OV, Das P, Taktak S, Flook M, Mas-Balleste R, Rybak-Akimova EV, Que Jr L. Chem.–Eur. J. 2009; 15: 13171
- 69 Kholdeeva OA, Trukhan NN, Vanina MP, Romannikov VN, Parmon VN, Mrowiec-Białoń J, Jarzbski AB. Catal. Today 2002; 75: 203
- 76 Santagostini L, Gullotti M, Monzani E, Casella L, Dillinger R, Tuczek F. Chem.–Eur. J. 2000; 6: 519
- 77 Mirica LM, Vance M, Rudd DJ, Hedman B, Hodgson KO, Solomon EI, Stack TDP. J. Am. Chem. Soc. 2002; 124: 9332
- 82 Hoffmann A, Citek C, Binder S, Goos A, Rübhausen M, Troeppner O, Ivanović-Burmazović I, Wasinger EC, Stack TDP, Herres-Pawlis S. Angew. Chem. Int. Ed. 2013; 52: 5398