Der Umgang mit Materialien in Nanobereich und auf der atomaren Ebene ist ein hochaktuelles Thema. Dieses Werk enthält neueste Informationen und Analysen zu wichtigen Anwendungsbereichen der Materialwissenschaften wie Wasserspaltung, CO2-Einsparung durch flüssige Kraftstoffe, N2-Umwandlung zu Ammoniak und Stromerzeugung aus Solarenergie.
Der Umgang mit Materialien in Nanobereich und auf der atomaren Ebene ist ein hochaktuelles Thema. Dieses Werk enthält neueste Informationen und Analysen zu wichtigen Anwendungsbereichen der Materialwissenschaften wie Wasserspaltung, CO2-Einsparung durch flüssige Kraftstoffe, N2-Umwandlung zu Ammoniak und Stromerzeugung aus Solarenergie.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Volume 1 1 Introduction PART I Emerging nanomaterials for Electrochemical (EC) energy conversion 2 2D-Materials Free Heterostructures for EC Energy Conversion 3 2D-Materials Based Heterostructures for EC Energy Conversion 4 Superlattices for EC Energy Conversion 5 Polymorphic Phase Engineered Structures (PPES) for EC Energy Conversion 6 Rare-Earth Nanomaterials for EC Energy Conversion PART II Emerging Nanomaterials for Photochemical (PC) energy conversion 7 2D-Materials Free Heterostructures for PC Energy Conversion 8 2D-Materials Based Heterostructures for PC Energy Conversion 9 Superlattices for PC Energy Conversion 10 Polymorphic Phase Engineered Structures (PPES) for PC Energy Conversion 11 Rare-Earth Nanomaterials for PC Energy Conversion 12 Non-Noble Plasmon Enhancement (NNPE) for PC Energy Conversion PART III Photoelectrochemical (PEC) energy conversion 13 2D-Materials Free Heterostructures for PEC Energy Conversion 14 2D-Materials Based Heterostructures for Photoelectrochemical Energy Conversion 15 Polymorphic Phase Engineered Structures (PPES) for PEC Energy Conversion 16 Rare-Earth Nanomaterials for PEC Energy Conversion 17 Non-Noble Plasmon Enhancement (NNPE) for Photoelectrochemical Energy Conversion
Volume 2 PART IV Photovoltaic (PV) energy conversion 18 2D-Materials Free Heterostructures for PV Energy Conversion 19 2D Materials Based Heterostructures for PV Energy Conversion 20 Perovskite/Si Tandem Solar Cells 21 III-V Compound Semiconductor Nanowire Solar Cells 22 Rare-Earth Nanomaterials for PV Energy Conversion 23 Non-Noble Plasmon Enhancement (NNPE) for Photovoltaic Energy Conversion PART V Clusters for energy conversion 24 Electrochemical Energy Conversion with Clusters 25 Photochemical Energy Conversion with Clusters 26 Photoelectrochemical Energy Conversion with Clusters Part VI Single atoms for energy conversion 27 Electrochemical Energy Conversion with Single Atoms 28 Photochemical Energy Conversion with Single Atoms 29 Photoelectrochemical Energy Conversion with Single Atoms 30 Future Perspectives
Volume 1 1 Introduction PART I Emerging nanomaterials for Electrochemical (EC) energy conversion 2 2D-Materials Free Heterostructures for EC Energy Conversion 3 2D-Materials Based Heterostructures for EC Energy Conversion 4 Superlattices for EC Energy Conversion 5 Polymorphic Phase Engineered Structures (PPES) for EC Energy Conversion 6 Rare-Earth Nanomaterials for EC Energy Conversion PART II Emerging Nanomaterials for Photochemical (PC) energy conversion 7 2D-Materials Free Heterostructures for PC Energy Conversion 8 2D-Materials Based Heterostructures for PC Energy Conversion 9 Superlattices for PC Energy Conversion 10 Polymorphic Phase Engineered Structures (PPES) for PC Energy Conversion 11 Rare-Earth Nanomaterials for PC Energy Conversion 12 Non-Noble Plasmon Enhancement (NNPE) for PC Energy Conversion PART III Photoelectrochemical (PEC) energy conversion 13 2D-Materials Free Heterostructures for PEC Energy Conversion 14 2D-Materials Based Heterostructures for Photoelectrochemical Energy Conversion 15 Polymorphic Phase Engineered Structures (PPES) for PEC Energy Conversion 16 Rare-Earth Nanomaterials for PEC Energy Conversion 17 Non-Noble Plasmon Enhancement (NNPE) for Photoelectrochemical Energy Conversion
Volume 2 PART IV Photovoltaic (PV) energy conversion 18 2D-Materials Free Heterostructures for PV Energy Conversion 19 2D Materials Based Heterostructures for PV Energy Conversion 20 Perovskite/Si Tandem Solar Cells 21 III-V Compound Semiconductor Nanowire Solar Cells 22 Rare-Earth Nanomaterials for PV Energy Conversion 23 Non-Noble Plasmon Enhancement (NNPE) for Photovoltaic Energy Conversion PART V Clusters for energy conversion 24 Electrochemical Energy Conversion with Clusters 25 Photochemical Energy Conversion with Clusters 26 Photoelectrochemical Energy Conversion with Clusters Part VI Single atoms for energy conversion 27 Electrochemical Energy Conversion with Single Atoms 28 Photochemical Energy Conversion with Single Atoms 29 Photoelectrochemical Energy Conversion with Single Atoms 30 Future Perspectives
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