Table of contents of journal:

Results: 15

Thermodynamic influences on C-H bond oxidation

Authors: Mayer, JM

Citation: Jm. Mayer, Thermodynamic influences on C-H bond oxidation, BIOMIMETIC OXIDATIONS CATALYZED BY TRANSITION METAL COMPLEXES, 2000, pp. 1-43

Distinguishing biomimetic oxidations from oxidations mediated by freely diffusing radicals

Authors: Ingold, KU MacFaul, PA

Citation: Ku. Ingold et Pa. Macfaul, Distinguishing biomimetic oxidations from oxidations mediated by freely diffusing radicals, BIOMIMETIC OXIDATIONS CATALYZED BY TRANSITION METAL COMPLEXES, 2000, pp. 45-89

Biomimetic oxygenations related to cytochrome P450: Metal-oxo and metal-peroxo intermediates

Authors: McLain, JL Lee, J Groves, JT

Citation: Jl. Mclain et al., Biomimetic oxygenations related to cytochrome P450: Metal-oxo and metal-peroxo intermediates, BIOMIMETIC OXIDATIONS CATALYZED BY TRANSITION METAL COMPLEXES, 2000, pp. 91-169

Models of heme peroxidases and catalases

Authors: Meunier, B

Citation: B. Meunier, Models of heme peroxidases and catalases, BIOMIMETIC OXIDATIONS CATALYZED BY TRANSITION METAL COMPLEXES, 2000, pp. 171-214

Non-heme peroxidases and catalases: Mechanistic implications from the studies of manganese and vanadium model compounds

Authors: Slebodnick, C Law, NA Pecoraro, VL

Citation: C. Slebodnick et al., Non-heme peroxidases and catalases: Mechanistic implications from the studies of manganese and vanadium model compounds, BIOMIMETIC OXIDATIONS CATALYZED BY TRANSITION METAL COMPLEXES, 2000, pp. 215-267

Methane monooxygenase models

Authors: Hu, ZB Gorun, SM

Citation: Zb. Hu et Sm. Gorun, Methane monooxygenase models, BIOMIMETIC OXIDATIONS CATALYZED BY TRANSITION METAL COMPLEXES, 2000, pp. 269-307

Models of copper enzymes and heme-copper oxidases

Authors: Kopf, MA Karlin, KD

Citation: Ma. Kopf et Kd. Karlin, Models of copper enzymes and heme-copper oxidases, BIOMIMETIC OXIDATIONS CATALYZED BY TRANSITION METAL COMPLEXES, 2000, pp. 309-362

Iron-containing models of catechol dioxygenases

Authors: Kruger, HJ

Citation: Hj. Kruger, Iron-containing models of catechol dioxygenases, BIOMIMETIC OXIDATIONS CATALYZED BY TRANSITION METAL COMPLEXES, 2000, pp. 363-413

Biomimetic chemistry of molybdenum

Authors: Young, CG

Citation: Cg. Young, Biomimetic chemistry of molybdenum, BIOMIMETIC OXIDATIONS CATALYZED BY TRANSITION METAL COMPLEXES, 2000, pp. 415-459

Models of superoxide dismutases

Authors: Cabelli, DE Riley, D Rodriguez, JA Valentine, JS Zhu, HN

Citation: De. Cabelli et al., Models of superoxide dismutases, BIOMIMETIC OXIDATIONS CATALYZED BY TRANSITION METAL COMPLEXES, 2000, pp. 461-508

Modeling the oxygen-evolving complex in photosystem II

Authors: Limburg, J Brudvig, GW Crabtree, RH

Citation: J. Limburg et al., Modeling the oxygen-evolving complex in photosystem II, BIOMIMETIC OXIDATIONS CATALYZED BY TRANSITION METAL COMPLEXES, 2000, pp. 509-541

Asymmetric biomimetic oxidations

Authors: Robert, A Meunier, B

Citation: A. Robert et B. Meunier, Asymmetric biomimetic oxidations, BIOMIMETIC OXIDATIONS CATALYZED BY TRANSITION METAL COMPLEXES, 2000, pp. 543-562

Bioinspired oxidations catalyzed by ruthenium complexes

Authors: Murahashi, SI Komiya, N

Citation: Si. Murahashi et N. Komiya, Bioinspired oxidations catalyzed by ruthenium complexes, BIOMIMETIC OXIDATIONS CATALYZED BY TRANSITION METAL COMPLEXES, 2000, pp. 563-611

Biocatalytic and biomimetic oxidations from an industrial perspective

Authors: Sheldon, RA

Citation: Ra. Sheldon, Biocatalytic and biomimetic oxidations from an industrial perspective, BIOMIMETIC OXIDATIONS CATALYZED BY TRANSITION METAL COMPLEXES, 2000, pp. 613-662

Biomimetic oxidations catalyzed by transition metal complexes - Introduction

Authors: Meunier, B

Citation: B. Meunier, Biomimetic oxidations catalyzed by transition metal complexes - Introduction, BIOMIMETIC OXIDATIONS CATALYZED BY TRANSITION METAL COMPLEXES, 2000, pp. XIII-XVIII

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