Billion-Year-Old Oxygen Cathode that Actually Works: Respiratory Oxygen Reduction and Its Biomimetic Analogs.- Fundamental Aspects on the Catalytic Activity of Metallomacrocyclics for the Electrochemical Reduction of O2.- Oxygen Reduction in PEM Fuel Cell Conditions: Heat-Treated Non-Precious Metal-N4 Macrocycles and Beyond.- Biomimetic NOx Reductions by Heme Models and Proteins.- Electroreduction of CO2 Catalyzed by Metallomacrocyclics.- Supramolecular Porphyrins as Electrocatalysts.- Electrodes Modified with Monomeric M-N4 Catalysts for the Detection of Environmentally Important Molecules.- Electropolymerized Metalloporphyrin Metallophthalocyanine and Metal Schiff Base Complex Films: Applications to Biomimetic Electrocatalysis and Bioelectroanalysis.- Electron Transfer Processes of ?-Pyrrole Brominated Porphyrins: Structural vs. Electronic Effects.- Photoelectrochemical Reactions at Phthalocyanine Electrodes.- Organisation and Photoelectrochemical Reactivity of Water-Soluble Metalloporphyrins at the Liquid/Liquid Interface.- Theoretical Insights on the Chemical Reactivity of Metalloporphyrins Using Density Functional Theory.- Organized Multiporphyrinic Assemblies for Photoconduction and Electroconduction.- Vibrational Spectra and Surface-Enhanced Vibrational Spectra of Azamacrocycles.
Billion-year Old Oxygen Cathode that Actually Works: Respiratory Oxygen Reduction and its Biomimetic Analogs.- Fundamental Aspects on the Catalytic Activity of Metallomacrocyclics for the Reduction of O2.- Oxygen Reduction in PEM Fuel Cell Conditions:Heat-Treated Non-precious Metal-N4 Macrocycles and Beyond.- Biomimetic NOx Reductions by Heme Models and Proteins.- Electroreduction of CO2 catalyzed by Metallomacrocyclics.- Supramolecular Porphyrins as Electrocatalysts.- Electrodes Modified with Monomeric M-N4 Catalysts for the Detection of Environmentally Important Molecules.- Electropolymerized Metalloporphyrin, Metallophthalocyanine, and Metal Schiff Base Complex Films: Applications to Biomimetic Electrocatalysis and Bioelectroanalysis.- Electron Transfer Processes of b -Pyrrole Brominated Porphyrins: Structural versus Electronic Effects.- Photoelectrochemical Reactions at Phthalocyanine Electrodes.- Organization and Photoelectrochemical Reactivity of Water-Soluble Metalloporphyrins at the Liquid/Liquid Interface.- Theoretical Insights on the Chemical Reactivity Indices of Metalloporphyrins and Metallophthalocyanines.- Organized Multiporphyrinic Assemblies for Photoconduction and Electroconduction.- Vibrational Spectra and Surface Enhanced Vibrational Spectra of Tetraazamacrocycles.
Billion-Year-Old Oxygen Cathode that Actually Works: Respiratory Oxygen Reduction and Its Biomimetic Analogs.- Fundamental Aspects on the Catalytic Activity of Metallomacrocyclics for the Electrochemical Reduction of O2.- Oxygen Reduction in PEM Fuel Cell Conditions: Heat-Treated Non-Precious Metal-N4 Macrocycles and Beyond.- Biomimetic NOx Reductions by Heme Models and Proteins.- Electroreduction of CO2 Catalyzed by Metallomacrocyclics.- Supramolecular Porphyrins as Electrocatalysts.- Electrodes Modified with Monomeric M-N4 Catalysts for the Detection of Environmentally Important Molecules.- Electropolymerized Metalloporphyrin Metallophthalocyanine and Metal Schiff Base Complex Films: Applications to Biomimetic Electrocatalysis and Bioelectroanalysis.- Electron Transfer Processes of ?-Pyrrole Brominated Porphyrins: Structural vs. Electronic Effects.- Photoelectrochemical Reactions at Phthalocyanine Electrodes.- Organisation and Photoelectrochemical Reactivity of Water-Soluble Metalloporphyrins at the Liquid/Liquid Interface.- Theoretical Insights on the Chemical Reactivity of Metalloporphyrins Using Density Functional Theory.- Organized Multiporphyrinic Assemblies for Photoconduction and Electroconduction.- Vibrational Spectra and Surface-Enhanced Vibrational Spectra of Azamacrocycles.
Billion-year Old Oxygen Cathode that Actually Works: Respiratory Oxygen Reduction and its Biomimetic Analogs.- Fundamental Aspects on the Catalytic Activity of Metallomacrocyclics for the Reduction of O2.- Oxygen Reduction in PEM Fuel Cell Conditions:Heat-Treated Non-precious Metal-N4 Macrocycles and Beyond.- Biomimetic NOx Reductions by Heme Models and Proteins.- Electroreduction of CO2 catalyzed by Metallomacrocyclics.- Supramolecular Porphyrins as Electrocatalysts.- Electrodes Modified with Monomeric M-N4 Catalysts for the Detection of Environmentally Important Molecules.- Electropolymerized Metalloporphyrin, Metallophthalocyanine, and Metal Schiff Base Complex Films: Applications to Biomimetic Electrocatalysis and Bioelectroanalysis.- Electron Transfer Processes of b -Pyrrole Brominated Porphyrins: Structural versus Electronic Effects.- Photoelectrochemical Reactions at Phthalocyanine Electrodes.- Organization and Photoelectrochemical Reactivity of Water-Soluble Metalloporphyrins at the Liquid/Liquid Interface.- Theoretical Insights on the Chemical Reactivity Indices of Metalloporphyrins and Metallophthalocyanines.- Organized Multiporphyrinic Assemblies for Photoconduction and Electroconduction.- Vibrational Spectra and Surface Enhanced Vibrational Spectra of Tetraazamacrocycles.
Rezensionen
From the reviews:
"This is an excellent and detailed book of 14 chapters that is timely in its reviews of the electrochemical and electrocatalytic properties of the porphyrinoids and is written by a range of experts in the different fields covered. ... this is an exciting book to read. It would be a really useful book to have in the laboratory library. The chapters are detailed and informative with excellent tables and figures ... ." (Martin Stillman, Journal of the American Chemical Society, Vol. 129 (5), 2007)
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