Titre : | Electrocatalysis V14 : theoretical foundations and model experiments | Type de document : | texte imprimé | Auteurs : | Alkire, Richard, Auteur ; Kolb, Dieter M, Auteur ; Kibler, Ludwig A, Auteur | Editeur : | Wiley-VCH | Année de publication : | 2013 | Collection : | Advances in electrochemical science and engineering | Importance : | 303 p. | Présentation : | ill.;en coul.;couv.;graph. | Format : | 25x18 cm. | ISBN/ISSN/EAN : | 978-3-527-33227-4 | Note générale : | index | Langues : | Anglais (eng) | Mots-clés : | Électrochimie électrocatalyse | Résumé : | Catalysts speed up a chemical reaction or allow for reactions to take place that would not otherwise occur. The chemical nature of a catalyst and its structure are crucial for interactions with reaction intermediates. An electrocatalyst is used in an electrochemical reaction, for example in a fuel cell to produce electricity. In this case, reaction rates are also dependent on the electrode potential and the structure of the electrical double-layer. This work provides a valuable overview of this rapidly developing field by focusing on the aspects that drive the research of today and tomorrow. Key topics are discussed by leading experts, making this book a must-have for many scientists of the fi eld with backgrounds in different disciplines, including chemistry, physics, biochemistry, engineering as well as surface and materials science. This book is volume XIV in the series "Advances in Electrochemical Sciences and Engineering".
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Electrocatalysis V14 : theoretical foundations and model experiments [texte imprimé] / Alkire, Richard, Auteur ; Kolb, Dieter M, Auteur ; Kibler, Ludwig A, Auteur . - [S.l.] : Wiley-VCH, 2013 . - 303 p. : ill.;en coul.;couv.;graph. ; 25x18 cm.. - ( Advances in electrochemical science and engineering) . ISBN : 978-3-527-33227-4 index Langues : Anglais ( eng) Mots-clés : | Électrochimie électrocatalyse | Résumé : | Catalysts speed up a chemical reaction or allow for reactions to take place that would not otherwise occur. The chemical nature of a catalyst and its structure are crucial for interactions with reaction intermediates. An electrocatalyst is used in an electrochemical reaction, for example in a fuel cell to produce electricity. In this case, reaction rates are also dependent on the electrode potential and the structure of the electrical double-layer. This work provides a valuable overview of this rapidly developing field by focusing on the aspects that drive the research of today and tomorrow. Key topics are discussed by leading experts, making this book a must-have for many scientists of the fi eld with backgrounds in different disciplines, including chemistry, physics, biochemistry, engineering as well as surface and materials science. This book is volume XIV in the series "Advances in Electrochemical Sciences and Engineering".
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