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: |