Quantum Chemical Characterization of Water Oxidation Catalysts

Pere Miró; Mehmed Z. Ertem; Laura Gagliardi; Christopher J. Cramer

doi:10.1002/9781118698648.ch12

Quantum Chemical Characterization of Water Oxidation Catalysts

Pere Miró, Mehmed Z. Ertem, Laura Gagliardi, Christopher J. Cramer

Research output: Chapter in Book/Report/Conference proceeding › Chapter

3 Scopus citations

Abstract

This chapter reviews computational studies on the water oxidation mechanisms of mononuclear and dinuclear ruthenium catalysts, the cobalt hangman corrole catalyst, and the iron-TAML catalysts. Diagonal steps are protoncoupled electron transfers (PCET) reactions. The relevance of a first solvation-shell water molecule was considered through extensive conformational searches as a hydrogen-bonding network could stabilize the conjugate base and acid forms of the-CO2H moiety. The chapter reports only the free energy of the most stable conformer in each case. It presents the results of a density functional theory (DFT) study together with multireference second-order perturbation theory to elucidate the mechanism of water oxidation in the iron(III)-centered tetraamido macrocyclic ligand (FeIII-TAML) catalyst.

Original language	English (US)
Title of host publication	Molecular Water Oxidation Catalysis
Subtitle of host publication	A Key Topic for New Sustainable Energy Conversion Schemes
Publisher	Wiley-Blackwell
Pages	233-255
Number of pages	23
Volume	9781118413371
ISBN (Electronic)	9781118698648
ISBN (Print)	9781118413371
DOIs	https://doi.org/10.1002/9781118698648.ch12
State	Published - Jun 3 2014

Bibliographical note

Publisher Copyright:
© 2014 John Wiley & Sons, Ltd. All rights reserved.

Keywords

Density functional theory (DFT) study
FeIII-TAML catalyst
Oxidation catalysts
Protoncoupled electron transfers (PCET) reactions
Quantum chemical characterization
Water nucleophilic attack (WNA)
Water oxidation catalysts

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title = "Quantum Chemical Characterization of Water Oxidation Catalysts",

abstract = "This chapter reviews computational studies on the water oxidation mechanisms of mononuclear and dinuclear ruthenium catalysts, the cobalt hangman corrole catalyst, and the iron-TAML catalysts. Diagonal steps are protoncoupled electron transfers (PCET) reactions. The relevance of a first solvation-shell water molecule was considered through extensive conformational searches as a hydrogen-bonding network could stabilize the conjugate base and acid forms of the-CO2H moiety. The chapter reports only the free energy of the most stable conformer in each case. It presents the results of a density functional theory (DFT) study together with multireference second-order perturbation theory to elucidate the mechanism of water oxidation in the iron(III)-centered tetraamido macrocyclic ligand (FeIII-TAML) catalyst.",

keywords = "Density functional theory (DFT) study, FeIII-TAML catalyst, Oxidation catalysts, Protoncoupled electron transfers (PCET) reactions, Quantum chemical characterization, Water nucleophilic attack (WNA), Water oxidation catalysts",

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AU - Miró, Pere

AU - Ertem, Mehmed Z.

AU - Gagliardi, Laura

AU - Cramer, Christopher J.

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Y1 - 2014/6/3

N2 - This chapter reviews computational studies on the water oxidation mechanisms of mononuclear and dinuclear ruthenium catalysts, the cobalt hangman corrole catalyst, and the iron-TAML catalysts. Diagonal steps are protoncoupled electron transfers (PCET) reactions. The relevance of a first solvation-shell water molecule was considered through extensive conformational searches as a hydrogen-bonding network could stabilize the conjugate base and acid forms of the-CO2H moiety. The chapter reports only the free energy of the most stable conformer in each case. It presents the results of a density functional theory (DFT) study together with multireference second-order perturbation theory to elucidate the mechanism of water oxidation in the iron(III)-centered tetraamido macrocyclic ligand (FeIII-TAML) catalyst.

AB - This chapter reviews computational studies on the water oxidation mechanisms of mononuclear and dinuclear ruthenium catalysts, the cobalt hangman corrole catalyst, and the iron-TAML catalysts. Diagonal steps are protoncoupled electron transfers (PCET) reactions. The relevance of a first solvation-shell water molecule was considered through extensive conformational searches as a hydrogen-bonding network could stabilize the conjugate base and acid forms of the-CO2H moiety. The chapter reports only the free energy of the most stable conformer in each case. It presents the results of a density functional theory (DFT) study together with multireference second-order perturbation theory to elucidate the mechanism of water oxidation in the iron(III)-centered tetraamido macrocyclic ligand (FeIII-TAML) catalyst.

KW - Density functional theory (DFT) study

KW - FeIII-TAML catalyst

KW - Oxidation catalysts

KW - Protoncoupled electron transfers (PCET) reactions

KW - Quantum chemical characterization

KW - Water nucleophilic attack (WNA)

KW - Water oxidation catalysts

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BT - Molecular Water Oxidation Catalysis

PB - Wiley-Blackwell

ER -

Quantum Chemical Characterization of Water Oxidation Catalysts

Abstract

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Keywords

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