| 1 - 1 |
Special issue: The 9th International Symposium Activation of Dioxygen and Homogeneous Catalytic Oxidation - Preface
Berkessel A |
| 2 - 7 |
Similarities between the reactions of dioxygen and alkenes with palladium(0): Relevance to the use of benzoquinone and molecular oxygen as stoichiometric oxidants in palladium-catalyzed oxidation reactions
Popp BV, Thorman JL, Stahl SS |
| 8 - 23 |
Design and study of homogeneous catalysts for the selective, low temperature oxidation of hydrocarbons
Conley BL, Tenn WJ, Young KJH, Ganesh SK, Meier SK, Ziatdinov VR, Mironov O, Oxgaard J, Gonzales J, Goddard WA, Periana RA |
| 24 - 33 |
Stoichiometric oxidations of sigma-bonds: Radical and possible non-radical pathways
Mayer JM, Mader EA, Roth JP, Bryant JR, Matsuo T, Dehestani A, Bales BC, Watson EJ, Osako T, Valliant-Saunders K, Lam WH, Hrovat DA, Borden WT, Davidson ER |
| 34 - 40 |
Vanadium calixarene complexes as molecular models for supported vanadia
Hoppe E, Limberg C, Ziemer B, Mugge C |
| 41 - 48 |
Type II photooxygenation in polymer matrices for the synthesis of new antimalarial peroxides
Griesbeck AG, Bartoschek A, EI-Idreesy TT, Hoinck O, Miara C |
| 49 - 53 |
Bio-inspired iron-catalyzed olefin oxidation. Additive effects on the cis-diol/epoxide ratio
Mas-Balleste R, Fujita M, Hemmila C, Que L |
| 54 - 65 |
Basis for specificity in methane monooxygenase and related non-heme iron-containing biological oxidation catalysts
Zhang J, Zheng H, Groce SL, Lipscomb JD |
| 66 - 70 |
Biocatalytic oxidation of sec-alcohols via hydrogen transfer
Edegger K, Mang H, Faber K, Gross J, Kroutil W |
| 71 - 77 |
The Julia-Colonna epoxidation: Access to chiral, non-racemic epoxides
Geller T, Gerlach A, Kruger CM, Militzer HC |
| 78 - 88 |
Discovery and optimization of rapid manganese catalysts for the epoxidation of terminal olefins
Murphy A, Stack TDP |
| 89 - 92 |
Mono- and bimetallic catalysts for glucose oxidation
Comotti M, Della Pina C, Rossi M |
| 93 - 99 |
Bio-inspired oxidations with polyoxometalate catalysts
Bonchio M, Carraro M, Sartorel A, Scorrano G, Kortz U |
| 100 - 107 |
Probing metal-mediated O-2 activation in chemical and biological systems
Smirnov VV, Brinkley DW, Lanci MP, Karlin KD, Roth JP |
| 108 - 113 |
Application of recyclable, polymer-immobilized iodine(III) oxidants in catalytic C-H bond functionalization
Kalberer EW, Whitfield SR, Sanford MS |
| 114 - 122 |
Manganese 1,4,7-trimethyl-1,4,7-triazacyclononane complexes: Versatile catalysts for the oxidation of organic compounds with hydrogen peroxide
Smith JRL, Gilbert BC, Payeras AMI, Murray J, Lowdon TR, Oakes J, Prats RPI, Walton PH |
| 123 - 128 |
Effective asymmetric oxidation of enones and alkyl aryl sulfides
Hinch M, Jacques O, Drago C, Caggiano L, Jackson RFW, Dexter C, Anson MS, Macdonald SJF |
| 129 - 149 |
Mechanisms of the aerobic oxidations catalyzed by N-hydroxyderivatives enthalpic, polar and solvent effects, "molecule-induced homolysis" and synthetic involvements
Minisci F, Punta C, Recupero F |
| 150 - 158 |
Bleach and oxidation catalysis by manganese-1,4,7-triazacylononane complexes and hydrogen peroxide
Hage R, Lienke A |
| 159 - 176 |
Catalytic bleach: Most valuable applications for smart oxidation chemistry
Dannacher JJ |
| 177 - 184 |
Fingerprints of bleach systems
Reinhardt G |
| 185 - 193 |
Inorganic compounds and materials as catalysts for oxidations with aqueous hydrogen peroxide
Nardello V, Aubry JM, De Vos DE, Neumann R, Adam W, Zhang R, ten Elshof JE, Witte PT, Alsters PL |
| 194 - 199 |
Convenient singlet oxygenation in multiphase microemulsion systems
Caron L, Nardello V, Alsters PL, Aubry JM |
| 200 - 214 |
Catalytic oxidations mediated by metal ions and nitroxyl radicals
Sheldon RA, Arends IWCE |
| 215 - 220 |
Ru=O complexes as catalysts for oxidative transformations, including the oxidation of water to molecular dioxygen
Rodriguez M, Romero I, Sens C, Llobet A |
| 221 - 228 |
Understanding the autoxidation of hydrocarbons at the molecular level and consequences for catalysis
Hermans I, Jacobs PA, Peeters J |
| 229 - 233 |
A DFT study on the decomposition of semiperacetals
Thiel WR |
| 234 - 238 |
New complexes and materials for O-2-based oxidations
Hill CL, Anderson TM, Han JW, Hillesheim DA, Geletii YV, Okun NM, Cao R, Botar B, Musaev DG, Morokuma K |
| 239 - 245 |
Mechanistic study on regioselective oxygenation reaction of 1,2-quinones with peroxybenzoic acids: Relevant to mechanisms of catecholdioxygenases
Hitomi Y, Yoshida H, Tanaka T, Funabiki T |
| 246 - 254 |
Palladium-neocuproine catalyzed aerobic oxidation of alcohols in aqueous solvents
Arends IWCE, ten Brink GJ, Sheldon RA |
| 255 - 262 |
Ionic-strength dependence of electron-transfer reactions of Keggin heteropolytungstates: Mechanistic probes of O-2 activation in water
Geletii YV, Weinstock IA |
| 263 - 269 |
Synthesis, spectroscopy, and structures of chiral rhodium(I) corrole complexes
Saltsman I, Balazs Y, Goldberg I, Gross Z |
| 270 - 276 |
A functional phenoxazinone synthase model based on dioximatomanganese(II) - Kinetics and mechanism of the catalytic oxidation of 2-aminophenols by dioxygen
Szigyarto IC, Simandi TM, Simandi LI, Korecz L, Nagy N |
| 277 - 285 |
2-Amino ketones from osmium-catalysed oxidations of alkenes
Muniz K, Hovelmann CH, Villar A, Vicente R, Streuff J, Nieger M |
| 286 - 290 |
Bis(mu-hydroxo) bridged di-vanadium-catalyzed selective epoxidation of alkenes with H2O2
Mizuno N, Nakagawa Y, Yamaguchi K |
| 291 - 296 |
Open-shell rhodium and iridium species in (catalytic) oxygenation reactions
Hetterscheid DGH, de Bruin B |
