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電子ブック

EB
Tolman, William B. Tolman
出版情報: Wiley Online Library - AutoHoldings Books , John Wiley & Sons, Inc., 2006
所蔵情報: loading…
目次情報: 続きを見る
Preface
List of Contributors
Carbon Dioxide Reduction and Uses as a Chemical Feedstock / Michele Aresta1:
Introduction / 1.1:
Properties of the CO2 Molecule / 1.2:
CO 2 Coordination to Metal Centers and Reactivity of Coordinated CO 2 / 1.3:
CO 2 Conversion / 1.4:
Conclusions / 1.5:
References
Nitrogen Monoxide and Nitrous Oxide Binding and Reduction / Dong-Heon Lee ; Biplab Mondal ; Kenneth D. Karlin2:
NO / 2.1:
N 2 O / 2.3:
Summary and Conclusions / 2.4:
Bio-organometallic Approaches to Nitrogen Fixation Chemistry / Jonas C. Peters ; Mark P. Mehn3:
Introduction - The N2 Fixation Challenge / 3.1:
Biological N 2 Reduction / 3.2:
Biomimetic Systems that Model Structure and Function / 3.3:
Concluding Remarks / 3.4:
The Activation of Dihydrogen / Jesse W. Tye ; Michael B. Hall4:
Structure and Bonding of Metal-bound H-Atoms / 4.1:
Intramolecular H-Atom Exchange / 4.3:
Nonclassical H-Bonds / 4.4:
Reactivity of Metal-bound H-Atoms / 4.5:
Recent Advances in the Activation of Dihydrogen by Synthetic Complexes / 4.6:
Enzymatically Catalyzed Dihydrogen Oxidation and Proton Reduction / 4.7:
Acknowledgments / 4.8:
Abbreviations
Molecular Oxygen Binding and Activation: Oxidation Catalysis / Candace N. Cornell ; Matthew S. Sigman5:
Additive Coreductants / 5.1:
Ligand-modified Catalysis / 5.3:
Conclusions and Outlook / 5.4:
Dioxygen Binding and Activation: Reactive Intermediates / Andrew S. Borovik ; Paul J. Zinn ; Matthew K. Zart6:
Dioxygen Binders / 6.1:
Reactive Intermediates: Iron and Copper Species / 6.3:
Cobalt-Dioxygen Complexes / 6.4:
Manganese-Dioxygen Complexes / 6.5:
Nickel-Dioxygen Complexes and Their Reactive Intermediates / 6.6:
Summary / 6.7:
Methane Functionalization / Brian Conley ; William J. Tenn, III ; Kenneth J.H. Young ; Somesh Ganesh ; Steve Meier ; Jonas Oxgaard ; Jason Gonzales ; William A. Goddard III ; Roy A. Periana7:
Methane as a Replacement for Petroleum / 7.1:
Low Temperature is Key to Economical Methane Functionalization / 7.2:
CH Activation as a Pathway to Economical Methane Functionalization via CH Hydroxylation / 7.3:
Conclusions and Perspective for Methane Functionalization / 7.4:
Water Activation: Catalytic Hydrolysis / Lisa M. Berreau8:
Water Activation: Coordination Sphere Effects on M-OH2 Acidity and Structure / 8.1:
Secondary H-Bonding Effects on Substrate Coordination, Activation and Catalytic Hydrolysis Involving Phosphate Esters / 8.3:
Summary and Future Directions / 8.4:
Carbon Monoxide as a Chemical Feedstock: Carbonylation Catalysis / Piet W.N.M. van Leeuwen ; Zoraida Freixa9:
Rhodium-catalyzed Hydroformylation / 9.1:
Methanol Carbonylation / 9.3:
Subject Index / 9.4:
CO2 Reduction and Use as a Chemical Feedstock NO and N2O Binding and Reduction
Reduction of N2 Activation of H2 Oxidation Catalysis of O2 O2 Binding and Activation by Metalloproteins and Model Complexes
Preface
List of Contributors
Carbon Dioxide Reduction and Uses as a Chemical Feedstock / Michele Aresta1:
2.

電子ブック

EB
edited by William B. Tolman
出版情報: Wiley Online Library Online Books , Weinheim : Wiley-VCH, c2006
所蔵情報: loading…
目次情報: 続きを見る
CO2 Reduction and Use as a Chemical Feedstock NO and N2O Binding and Reduction
Reduction of N2 Activation of H2 Oxidation Catalysis of O2 O2 Binding and Activation by Metalloproteins and Model Complexes
Preface
List of Contributors
Carbon Dioxide Reduction and Uses as a Chemical Feedstock / Michele Aresta1:
Introduction / 1.1:
Properties of the CO2 Molecule / 1.2:
CO 2 Coordination to Metal Centers and Reactivity of Coordinated CO 2 / 1.3:
CO 2 Conversion / 1.4:
Conclusions / 1.5:
References
Nitrogen Monoxide and Nitrous Oxide Binding and Reduction / Dong-Heon Lee ; Biplab Mondal ; Kenneth D. Karlin2:
NO / 2.1:
N 2 O / 2.3:
Summary and Conclusions / 2.4:
Bio-organometallic Approaches to Nitrogen Fixation Chemistry / Jonas C. Peters ; Mark P. Mehn3:
Introduction - The N2 Fixation Challenge / 3.1:
Biological N 2 Reduction / 3.2:
Biomimetic Systems that Model Structure and Function / 3.3:
Concluding Remarks / 3.4:
The Activation of Dihydrogen / Jesse W. Tye ; Michael B. Hall4:
Structure and Bonding of Metal-bound H-Atoms / 4.1:
Intramolecular H-Atom Exchange / 4.3:
Nonclassical H-Bonds / 4.4:
Reactivity of Metal-bound H-Atoms / 4.5:
Recent Advances in the Activation of Dihydrogen by Synthetic Complexes / 4.6:
Enzymatically Catalyzed Dihydrogen Oxidation and Proton Reduction / 4.7:
Acknowledgments / 4.8:
Abbreviations
Molecular Oxygen Binding and Activation: Oxidation Catalysis / Candace N. Cornell ; Matthew S. Sigman5:
Additive Coreductants / 5.1:
Ligand-modified Catalysis / 5.3:
Conclusions and Outlook / 5.4:
Dioxygen Binding and Activation: Reactive Intermediates / Andrew S. Borovik ; Paul J. Zinn ; Matthew K. Zart6:
Dioxygen Binders / 6.1:
Reactive Intermediates: Iron and Copper Species / 6.3:
Cobalt-Dioxygen Complexes / 6.4:
Manganese-Dioxygen Complexes / 6.5:
Nickel-Dioxygen Complexes and Their Reactive Intermediates / 6.6:
Summary / 6.7:
Methane Functionalization / Brian Conley ; William J. Tenn, III ; Kenneth J.H. Young ; Somesh Ganesh ; Steve Meier ; Jonas Oxgaard ; Jason Gonzales ; William A. Goddard III ; Roy A. Periana7:
Methane as a Replacement for Petroleum / 7.1:
Low Temperature is Key to Economical Methane Functionalization / 7.2:
CH Activation as a Pathway to Economical Methane Functionalization via CH Hydroxylation / 7.3:
Conclusions and Perspective for Methane Functionalization / 7.4:
Water Activation: Catalytic Hydrolysis / Lisa M. Berreau8:
Water Activation: Coordination Sphere Effects on M-OH2 Acidity and Structure / 8.1:
Secondary H-Bonding Effects on Substrate Coordination, Activation and Catalytic Hydrolysis Involving Phosphate Esters / 8.3:
Summary and Future Directions / 8.4:
Carbon Monoxide as a Chemical Feedstock: Carbonylation Catalysis / Piet W.N.M. van Leeuwen ; Zoraida Freixa9:
Rhodium-catalyzed Hydroformylation / 9.1:
Methanol Carbonylation / 9.3:
Subject Index / 9.4:
CO2 Reduction and Use as a Chemical Feedstock NO and N2O Binding and Reduction
Reduction of N2 Activation of H2 Oxidation Catalysis of O2 O2 Binding and Activation by Metalloproteins and Model Complexes
Preface
3.

図書

図書
edited by William B. Tolman
出版情報: Weinheim : Wiley-VCH, c2006  xvii, 363 p. ; 25 cm
所蔵情報: loading…
目次情報: 続きを見る
Preface
List of Contributors
Carbon Dioxide Reduction and Uses as a Chemical Feedstock / Michele Aresta1:
Introduction / 1.1:
Properties of the CO2 Molecule / 1.2:
CO 2 Coordination to Metal Centers and Reactivity of Coordinated CO 2 / 1.3:
CO 2 Conversion / 1.4:
Conclusions / 1.5:
References
Nitrogen Monoxide and Nitrous Oxide Binding and Reduction / Dong-Heon Lee ; Biplab Mondal ; Kenneth D. Karlin2:
NO / 2.1:
N 2 O / 2.3:
Summary and Conclusions / 2.4:
Bio-organometallic Approaches to Nitrogen Fixation Chemistry / Jonas C. Peters ; Mark P. Mehn3:
Introduction - The N2 Fixation Challenge / 3.1:
Biological N 2 Reduction / 3.2:
Biomimetic Systems that Model Structure and Function / 3.3:
Concluding Remarks / 3.4:
The Activation of Dihydrogen / Jesse W. Tye ; Michael B. Hall4:
Structure and Bonding of Metal-bound H-Atoms / 4.1:
Intramolecular H-Atom Exchange / 4.3:
Nonclassical H-Bonds / 4.4:
Reactivity of Metal-bound H-Atoms / 4.5:
Recent Advances in the Activation of Dihydrogen by Synthetic Complexes / 4.6:
Enzymatically Catalyzed Dihydrogen Oxidation and Proton Reduction / 4.7:
Acknowledgments / 4.8:
Abbreviations
Molecular Oxygen Binding and Activation: Oxidation Catalysis / Candace N. Cornell ; Matthew S. Sigman5:
Additive Coreductants / 5.1:
Ligand-modified Catalysis / 5.3:
Conclusions and Outlook / 5.4:
Dioxygen Binding and Activation: Reactive Intermediates / Andrew S. Borovik ; Paul J. Zinn ; Matthew K. Zart6:
Dioxygen Binders / 6.1:
Reactive Intermediates: Iron and Copper Species / 6.3:
Cobalt-Dioxygen Complexes / 6.4:
Manganese-Dioxygen Complexes / 6.5:
Nickel-Dioxygen Complexes and Their Reactive Intermediates / 6.6:
Summary / 6.7:
Methane Functionalization / Brian Conley ; William J. Tenn, III ; Kenneth J.H. Young ; Somesh Ganesh ; Steve Meier ; Jonas Oxgaard ; Jason Gonzales ; William A. Goddard III ; Roy A. Periana7:
Methane as a Replacement for Petroleum / 7.1:
Low Temperature is Key to Economical Methane Functionalization / 7.2:
CH Activation as a Pathway to Economical Methane Functionalization via CH Hydroxylation / 7.3:
Conclusions and Perspective for Methane Functionalization / 7.4:
Water Activation: Catalytic Hydrolysis / Lisa M. Berreau8:
Water Activation: Coordination Sphere Effects on M-OH2 Acidity and Structure / 8.1:
Secondary H-Bonding Effects on Substrate Coordination, Activation and Catalytic Hydrolysis Involving Phosphate Esters / 8.3:
Summary and Future Directions / 8.4:
Carbon Monoxide as a Chemical Feedstock: Carbonylation Catalysis / Piet W.N.M. van Leeuwen ; Zoraida Freixa9:
Rhodium-catalyzed Hydroformylation / 9.1:
Methanol Carbonylation / 9.3:
Subject Index / 9.4:
Preface
List of Contributors
Carbon Dioxide Reduction and Uses as a Chemical Feedstock / Michele Aresta1:
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