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Electrochemical water oxidation at i...

Haschke, Sandra.

Electrochemical water oxidation at iron(III) oxide electrodesControlled Nanostructuring as Key for Enhanced Water Oxidation Efficiency /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Electrochemical water oxidation at iron(III) oxide electrodesby Sandra Haschke.
Reminder of title:	Controlled Nanostructuring as Key for Enhanced Water Oxidation Efficiency /
remainder title:	Electrochemical water oxidation at iron oxide electrodes
Author:	Haschke, Sandra.
Published:	Wiesbaden :Springer Fachmedien Wiesbaden :2015.
Description:	xvi, 51 p. :ill., digital ;24 cm.
Contained By:	Springer eBooks
Subject:	Oxidation.
Online resource:	http://dx.doi.org/10.1007/978-3-658-09287-0
ISBN:	9783658092870 (electronic bk.)

Electrochemical water oxidation at iron(III) oxide electrodesControlled Nanostructuring as Key for Enhanced Water Oxidation Efficiency /
Haschke, Sandra.

Electrochemical water oxidation at iron(III) oxide electrodesControlled Nanostructuring as Key for Enhanced Water Oxidation Efficiency /[electronic resource] :Electrochemical water oxidation at iron oxide electrodesby Sandra Haschke. - Wiesbaden :Springer Fachmedien Wiesbaden :2015. - xvi, 51 p. :ill., digital ;24 cm. - BestMasters. - BestMasters..

Preparation of Nanostructured Fe2O3 Electrodes -- Chemical and Structural Properties of Nanoporous Catalyst Electrodes -- Modification of Nanostructured Fe2O3 Electrodes by Means of Post-Deposition Annealing -- Improvement of Electrode Performance by Surface Area Enhancement.

Sandra Haschke presents a strategy to enhance the Fe2O3 electrode performance by controlled nanostructuring of the catalyst surface, based on anodized aluminum oxide coated by means of atomic layer deposition. Furthermore, she investigates the influence of underlying conductive layers and post-deposition annealing on the electrode performance and the associated changes in morphology and chemical composition. Exploiting all effects combined delivers an increase in steady-state water oxidation throughput by a factor of 2.5 with respect to planar electrodes. Contents Preparation of Nanostructured Fe2O3 Electrodes Chemical and Structural Properties of Nanoporous Catalyst Electrodes Modification of Nanostructured Fe2O3 Electrodes by Means of Post-Deposition Annealing Improvement of Electrode Performance by Surface Area Enhancement Target Groups Researchers and students in the fields of electrochemistry, materials sciences and physical chemistry Practitioners in these areas The Author Sandra Haschke obtained her Master's degree in chemistry at the Friedrich-Alexander University Erlangen-Nurnberg under the supervision of Prof. Dr. Julien Bachmann where she will continue with her PhD thesis.

ISBN: 9783658092870 (electronic bk.)

Standard No.: 10.1007/978-3-658-09287-0doiSubjects--Topical Terms:

188332
Oxidation.

LC Class. No.: QD553

Dewey Class. No.: 541.37

Electrochemical water oxidation at iron(III) oxide electrodesControlled Nanostructuring as Key for Enhanced Water Oxidation Efficiency /
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520 $a Sandra Haschke presents a strategy to enhance the Fe2O3 electrode performance by controlled nanostructuring of the catalyst surface, based on anodized aluminum oxide coated by means of atomic layer deposition. Furthermore, she investigates the influence of underlying conductive layers and post-deposition annealing on the electrode performance and the associated changes in morphology and chemical composition. Exploiting all effects combined delivers an increase in steady-state water oxidation throughput by a factor of 2.5 with respect to planar electrodes. Contents Preparation of Nanostructured Fe2O3 Electrodes Chemical and Structural Properties of Nanoporous Catalyst Electrodes Modification of Nanostructured Fe2O3 Electrodes by Means of Post-Deposition Annealing Improvement of Electrode Performance by Surface Area Enhancement Target Groups Researchers and students in the fields of electrochemistry, materials sciences and physical chemistry Practitioners in these areas The Author Sandra Haschke obtained her Master's degree in chemistry at the Friedrich-Alexander University Erlangen-Nurnberg under the supervision of Prof. Dr. Julien Bachmann where she will continue with her PhD thesis.
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