Next-generation materials for energy chemistry : Xiamen, China, 27-29 October 2014 ; [a General Discussion on Next-Generation Materials for Energy Chemistry]

Next-generation materials for energy chemistry Xiamen, China, 27-29 October 2014 ; [a General Discussion on Next-Generation Materials for Energy Chemistry]

"The development of renewable, low cost, high performance energy technologies is a key scientific challenge for the 21st century. Many of these energy applications involve numerous dynamic energy and mass transfer processes at the sub-nanometer to micrometer length scale that require the collab...

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Bibliographische Detailangaben
Körperschaft: Royal Society of Chemistry Faraday Division (BerichterstatterIn)
Weitere Verfasser: Tian, Zhong-Qun (BerichterstatterIn)
Format: UnknownFormat
Sprache:eng
Veröffentlicht: Cambridge RSC Publ., Royal Society of Chemistry 2014
Schriftenreihe:Faraday discussions 176
Schlagworte:
Chemical engineering > Electrochemistry > Konferenzschrift
Online Zugang:Inhaltsverzeichnis
Abstracts & Open Access content
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Zusammenfassung:"The development of renewable, low cost, high performance energy technologies is a key scientific challenge for the 21st century. Many of these energy applications involve numerous dynamic energy and mass transfer processes at the sub-nanometer to micrometer length scale that require the collaborative participation of various functional material components. In this volume the topics covered include: System integration from atomic, molecular, nano to meso scale towards optimised design of energy materials ; Design of material systems to optimizer the energy enrichment of renewable sources for photochemical, thermal-to-electric conversion, and mechanical-to-electric conversion systems ; How interfacial chemistry takes place in the energy-related processes, focusing on design principles of efficient (electro) catalysts, in-situ characterization methods and theories in energy conversion and storage ; New materials and innovations for energy applications, including new light harvesting materials / semiconductors, plasmonicsenhanced energy conversion, new catalysts for biomass conversion, and energy-related bioinspiration / biomimetic systems."--Back cover
Beschreibung:Includes bibliographical references. - Three papers are published as Open Access articles
Chair: Prof. Zhong-Qun Tian (Xiamen University, China)
Beschreibung:482 S.
Ill., graph. Darst.
24 cm
ISBN:1782620370
1-78262-037-0
9781782620440
978-1-78262-044-0
9781782620372
978-1-78262-037-2