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Multifunctional Nanomaterials for Energy Applications
Authors: --- ---
Year: 2022 Publisher: Basel MDPI Books

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Abstract

The rapid growth of the world's population has significantly increased energy consumption and environmental impact. The transition from fossil fuels to sustainable energy sources that is needed for a sustainable future demands more efficient materials and improved technologies, but allows us to tackle this great and necessary challenge. This Special Issue highlights some of the latest energy advances in the field of materials, in particular low-dimensional materials, and nanostructured materials. Various topics related to synthesis and characterization methods, properties, and energy application uses are highlighted.

Keywords

Research & information: general --- Physics --- peritectic compound Li4(OH)3Br --- phase change materials --- thermal energy storage --- shape stabilized composites --- supporting materials --- oxides --- colloidal lithography --- thin-film photovoltaics --- photonics --- light-trapping --- self-cleaning --- graphene --- triboelectric nanogenerator --- charge trapping layer --- flexible --- stability --- energy harvesting --- solar cells --- parameter extraction --- single diode model --- non-iterative --- sodium borohydride --- hydrolysis --- porous carbon --- Co nanoparticles --- durability --- Ti-MOFs --- amine functionalization --- CO2 capture --- separation --- breakthrough experiment --- carbon nanotube --- plastic --- chemical recycling --- life cycle assessment --- ethernet --- circular economy --- data transmission --- carbon footprint --- BaF2 nanophase --- oxyfluoride nano-glass-ceramics --- Tb3+/Eu3+ energy transfer --- sol-gel chemistry --- nanocellulose --- ionic liquid --- ionogel --- gel polymer electrolyte --- renewable energy storage --- supercapacitors --- Ti2SnC --- M2AX --- powders --- thin films --- STEM --- nanoindentation --- zinc-ion supercapacitor --- three-dimensional vertically aligned graphene --- polydopamine --- highly concentrated salt electrolyte --- mini-jets --- diffuse discharge --- spark discharge --- red sprites --- blue jets --- ghosts --- Atomic Force Microscopy --- Electrochemical Strain Microscopy --- hybrid electrolyte --- Energy Storage --- lithium transport --- lithium distribution --- all-solid-state electrolytes --- diffusion --- ferric ion sensor --- MOF --- finite difference --- composite materials --- Mn3O4-CeO2-rGO --- nanocatalyst --- methanol oxidation --- cyclic voltammetry --- cellulose nanocrystal --- surface functionalization --- conductive electrodes --- energy storage --- peritectic compound Li4(OH)3Br --- phase change materials --- thermal energy storage --- shape stabilized composites --- supporting materials --- oxides --- colloidal lithography --- thin-film photovoltaics --- photonics --- light-trapping --- self-cleaning --- graphene --- triboelectric nanogenerator --- charge trapping layer --- flexible --- stability --- energy harvesting --- solar cells --- parameter extraction --- single diode model --- non-iterative --- sodium borohydride --- hydrolysis --- porous carbon --- Co nanoparticles --- durability --- Ti-MOFs --- amine functionalization --- CO2 capture --- separation --- breakthrough experiment --- carbon nanotube --- plastic --- chemical recycling --- life cycle assessment --- ethernet --- circular economy --- data transmission --- carbon footprint --- BaF2 nanophase --- oxyfluoride nano-glass-ceramics --- Tb3+/Eu3+ energy transfer --- sol-gel chemistry --- nanocellulose --- ionic liquid --- ionogel --- gel polymer electrolyte --- renewable energy storage --- supercapacitors --- Ti2SnC --- M2AX --- powders --- thin films --- STEM --- nanoindentation --- zinc-ion supercapacitor --- three-dimensional vertically aligned graphene --- polydopamine --- highly concentrated salt electrolyte --- mini-jets --- diffuse discharge --- spark discharge --- red sprites --- blue jets --- ghosts --- Atomic Force Microscopy --- Electrochemical Strain Microscopy --- hybrid electrolyte --- Energy Storage --- lithium transport --- lithium distribution --- all-solid-state electrolytes --- diffusion --- ferric ion sensor --- MOF --- finite difference --- composite materials --- Mn3O4-CeO2-rGO --- nanocatalyst --- methanol oxidation --- cyclic voltammetry --- cellulose nanocrystal --- surface functionalization --- conductive electrodes --- energy storage


Book
Multifunctional Nanomaterials for Energy Applications
Authors: --- ---
Year: 2022 Publisher: Basel MDPI Books

Loading...
Export citation

Choose an application

Bookmark

Abstract

The rapid growth of the world's population has significantly increased energy consumption and environmental impact. The transition from fossil fuels to sustainable energy sources that is needed for a sustainable future demands more efficient materials and improved technologies, but allows us to tackle this great and necessary challenge. This Special Issue highlights some of the latest energy advances in the field of materials, in particular low-dimensional materials, and nanostructured materials. Various topics related to synthesis and characterization methods, properties, and energy application uses are highlighted.

Keywords

Research & information: general --- Physics --- peritectic compound Li4(OH)3Br --- phase change materials --- thermal energy storage --- shape stabilized composites --- supporting materials --- oxides --- colloidal lithography --- thin-film photovoltaics --- photonics --- light-trapping --- self-cleaning --- graphene --- triboelectric nanogenerator --- charge trapping layer --- flexible --- stability --- energy harvesting --- solar cells --- parameter extraction --- single diode model --- non-iterative --- sodium borohydride --- hydrolysis --- porous carbon --- Co nanoparticles --- durability --- Ti-MOFs --- amine functionalization --- CO2 capture --- separation --- breakthrough experiment --- carbon nanotube --- plastic --- chemical recycling --- life cycle assessment --- ethernet --- circular economy --- data transmission --- carbon footprint --- BaF2 nanophase --- oxyfluoride nano-glass-ceramics --- Tb3+/Eu3+ energy transfer --- sol–gel chemistry --- nanocellulose --- ionic liquid --- ionogel --- gel polymer electrolyte --- renewable energy storage --- supercapacitors --- Ti2SnC --- M2AX --- powders --- thin films --- STEM --- nanoindentation --- zinc-ion supercapacitor --- three-dimensional vertically aligned graphene --- polydopamine --- highly concentrated salt electrolyte --- mini-jets --- diffuse discharge --- spark discharge --- red sprites --- blue jets --- ghosts --- Atomic Force Microscopy --- Electrochemical Strain Microscopy --- hybrid electrolyte --- Energy Storage --- lithium transport --- lithium distribution --- all-solid-state electrolytes --- diffusion --- ferric ion sensor --- MOF --- finite difference --- composite materials --- Mn3O4-CeO2-rGO --- nanocatalyst --- methanol oxidation --- cyclic voltammetry --- cellulose nanocrystal --- surface functionalization --- conductive electrodes --- energy storage --- n/a --- sol-gel chemistry


Book
Multifunctional Nanomaterials for Energy Applications
Authors: --- ---
Year: 2022 Publisher: Basel MDPI Books

Loading...
Export citation

Choose an application

Bookmark

Abstract

The rapid growth of the world's population has significantly increased energy consumption and environmental impact. The transition from fossil fuels to sustainable energy sources that is needed for a sustainable future demands more efficient materials and improved technologies, but allows us to tackle this great and necessary challenge. This Special Issue highlights some of the latest energy advances in the field of materials, in particular low-dimensional materials, and nanostructured materials. Various topics related to synthesis and characterization methods, properties, and energy application uses are highlighted.

Keywords

peritectic compound Li4(OH)3Br --- phase change materials --- thermal energy storage --- shape stabilized composites --- supporting materials --- oxides --- colloidal lithography --- thin-film photovoltaics --- photonics --- light-trapping --- self-cleaning --- graphene --- triboelectric nanogenerator --- charge trapping layer --- flexible --- stability --- energy harvesting --- solar cells --- parameter extraction --- single diode model --- non-iterative --- sodium borohydride --- hydrolysis --- porous carbon --- Co nanoparticles --- durability --- Ti-MOFs --- amine functionalization --- CO2 capture --- separation --- breakthrough experiment --- carbon nanotube --- plastic --- chemical recycling --- life cycle assessment --- ethernet --- circular economy --- data transmission --- carbon footprint --- BaF2 nanophase --- oxyfluoride nano-glass-ceramics --- Tb3+/Eu3+ energy transfer --- sol–gel chemistry --- nanocellulose --- ionic liquid --- ionogel --- gel polymer electrolyte --- renewable energy storage --- supercapacitors --- Ti2SnC --- M2AX --- powders --- thin films --- STEM --- nanoindentation --- zinc-ion supercapacitor --- three-dimensional vertically aligned graphene --- polydopamine --- highly concentrated salt electrolyte --- mini-jets --- diffuse discharge --- spark discharge --- red sprites --- blue jets --- ghosts --- Atomic Force Microscopy --- Electrochemical Strain Microscopy --- hybrid electrolyte --- Energy Storage --- lithium transport --- lithium distribution --- all-solid-state electrolytes --- diffusion --- ferric ion sensor --- MOF --- finite difference --- composite materials --- Mn3O4-CeO2-rGO --- nanocatalyst --- methanol oxidation --- cyclic voltammetry --- cellulose nanocrystal --- surface functionalization --- conductive electrodes --- energy storage --- n/a --- sol-gel chemistry

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