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Thin-Film Catalysts for Proton Exchange Membrane Water Electrolyzers and Unitized Regenerative Fuel Cells de Peter Kúš

Thin-Film Catalysts for Proton Exchange Membrane Water Electrolyzers and Unitized Regenerative Fuel Cells: Springer Theses

Autor Peter Kúš
en Limba Engleză Paperback – 14 aug 2020
This work revolves around the hydrogen economy and energy-storage electrochemical systems. More specifically, it investigates the possibility of using magnetron sputtering for deposition of efficient thin-film anode catalysts with low noble metal content for proton exchange membrane water electrolyzers (PEM-WEs) and unitized regenerative fuel cells (PEM-URFCs). The motivation for this research derives from the urgent need to minimize the price of such electrochemical devices should they enter the mass production.
Numerous experiments were carried out, correlating the actual in-cell performance with the varying position of thin-film catalyst within the membrane electrode assembly, with the composition of high-surface support sublayer and with the chemical structure of the catalyst itself. The wide arsenal of analytical methods ranging from electrochemical impedance spectroscopy through electrochemical atomic force microscopy to photoelectron spectroscopy allowed the descriptionof the complex phenomena behind different obtained efficiencies.
Systematic optimizations led to the design of a novel PEM-WE anode thin-film iridium catalyst which performs similarly to the standard counterparts despite using just a fraction of their noble metal content. Moreover, the layer-by-layer approach resulted in the design of a Ir/TiC/Pt bi-functional anode for PEM-URFC which is able to operate in both the fuel cell and electrolyzer regime and thus helps to cut the cost of the whole conversion system even further.
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Paperback (1) 61878 lei  6-8 săpt.
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Specificații

ISBN-13: 9783030208615
ISBN-10: 3030208613
Pagini: 101
Ilustrații: XIV, 101 p.
Dimensiuni: 155 x 235 mm
Greutate: 0.17 kg
Ediția:1st ed. 2019
Editura: Springer International Publishing
Colecția Springer
Seria Springer Theses

Locul publicării:Cham, Switzerland

Cuprins

Introduction.- Experimental.- Results.- Summary and conclusions.

Notă biografică

Dr. Peter Kúš obtained his Ph.D. in the group of Prof. Matolín at the Charles University, Prague, Czech Republic.  During his studies he focused on the R&D in field of hydrogen technologies, more specifically on the preparation and characterization of complex nanostructured catalysts for the proton exchange membrane fuel cells and water electrolyzers. He was awarded the ICGS Fellowship from the National Institute for Materials Science, Tsukuba, Japan.  Dr. Kúš was the principal investigator of a subproject of TACR Gama program, funded by the Technology Agency of the Czech Republic and of two GAUK projects, funded by the Charles University.

Textul de pe ultima copertă

This work revolves around the hydrogen economy and energy-storage electrochemical systems. More specifically, it investigates the possibility of using magnetron sputtering for deposition of efficient thin-film anode catalysts with low noble metal content for proton exchange membrane water electrolyzers (PEM-WEs) and unitized regenerative fuel cells (PEM-URFCs). The motivation for this research derives from the urgent need to minimize the price of such electrochemical devices should they enter the mass production.
Numerous experiments were carried out, correlating the actual in-cell performance with the varying position of thin-film catalyst within the membrane electrode assembly, with the composition of high-surface support sublayer and with the chemical structure of the catalyst itself. The wide arsenal of analytical methods ranging from electrochemical impedance spectroscopy through electrochemical atomic force microscopy to photoelectron spectroscopy allowed the descriptionof the complex phenomena behind different obtained efficiencies.
Systematic optimizations led to the design of a novel PEM-WE anode thin-film iridium catalyst which performs similarly to the standard counterparts despite using just a fraction of their noble metal content. Moreover, the layer-by-layer approach resulted in the design of a Ir/TiC/Pt bi-functional anode for PEM-URFC which is able to operate in both the fuel cell and electrolyzer regime and thus helps to cut the cost of the whole conversion system even further.


Caracteristici

Nominated as an outstanding Ph.D. thesis by the Charles University, Prague, Czech Republic Provides comprehensive insight into the concept of hydrogen economy and technologies of PEM water electrolyzers and fuel cells Thoroughly describes the development of novel thin-film low-loading catalysts for PEM electrolyzer and regenerative fuel cell Conclusions are based on data obtained from the state-of-the-art local and integral analytical methods of surface physics and electrochemistry