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Plasma Electrochemistry: A Novel Chemical Process for the Synthesis and Assembly of Nanomaterials

Author: Seung Whan Lee Affiliation: Department of Chemical Engineering, Case Western Reserve University, Cleveland, OH, 44106-7217, USA; R Mohan Sankaran Affiliation: Department of Chemical Engineering, Case Western Reserve University, Cleveland, OH, 44106-7217, USA
Edition/Format: Chapter Chapter : English
Summary:
Electrochemical reactions are typically initiated at the interface of a solid metal electrode and ionic electrolyte. Recently, the development of a novel microplasma source has allowed non-thermal, atmospheric-pressure plasmas to be stably formed at the surface of aqueous ionic electrolytes and thin polymeric films. Thus, microplasmas can act as a gaseous electrode for electrochemical reactions which is termed  Read more...
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All Authors / Contributors: Seung Whan Lee Affiliation: Department of Chemical Engineering, Case Western Reserve University, Cleveland, OH, 44106-7217, USA; R Mohan Sankaran Affiliation: Department of Chemical Engineering, Case Western Reserve University, Cleveland, OH, 44106-7217, USA
ISBN: 978-3-319-05436-0 978-3-319-05437-7
Publication:Bonitz, Michael, bonitz@physik.uni-kiel.de, Astrophysik Lehrstuhl Statistische Physik, Christian-Albrechts-Universität zu Kiel Institut für Theoretische Physik und, Kiel, Germany; Complex Plasmas : Scientific Challenges and Technological Opportunities; 399-425; Cham : Springer International Publishing : Springer
Language Note: English
Unique Identifier: 5679751322
Awards:

Abstract:

Electrochemical reactions are typically initiated at the interface of a solid metal electrode and ionic electrolyte. Recently, the development of a novel microplasma source has allowed non-thermal, atmospheric-pressure plasmas to be stably formed at the surface of aqueous ionic electrolytes and thin polymeric films. Thus, microplasmas can act as a gaseous electrode for electrochemical reactions which is termed “plasma electrochemistry”. Plasma electrochemistry allows the synthesis and assembly of nanomaterials, and, in comparison to other chemical methods, is low cost, high purity, scalable via roll-to-roll processing, and environmentally friendly. Overall, these features should be attractive for emerging technological applications in catalysis, energy harvesting/storage, and medicine. This chapter provides technical background and motivation for this area of research, and describes recent progress and remaining scientific challenges.

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