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Advanced Functional Nanostructured Films and Coatings for Energy Applications
Materialtyp:
ArtikelUtgivningsinformation: MDPI - Multidisciplinary Digital Publishing Institute 2024Beskrivning: 1 electronic resource (154 p.)Innehållstyp: - text
- computer
- online resource
- 9783725809950
- 9783725809967
- Mathematics and Science
- Physics
- Classical mechanics
- Energy
- Ag–Ta thin film
- CoNi2O4
- H2 production
- HIT
- HJT
- Lagergren pseudo-first order kinetics
- MLAs
- Marangoni effect
- NIR radiation
- UV nanoimprint technology
- activated carbon wheat husk
- adsorption latent head
- aging effects
- carbon dots
- carbon nanotubes
- circular economy
- clinoptilolite
- composite materials
- ethanol oxidation
- ethanol reforming
- film sensors
- flexible strain sensors
- glycerol reforming
- graphene
- graphite bisulfate
- graphite intercalation
- low-emissivity coating
- methanol oxidation
- modeling
- online hydration monitoring
- photocatalysis
- photoresist film
- polyurethane
- quantum wall
- reflectance
- review
- selective laser melting
- solar cell
- sol–gel coatings
- thermochemical storage
- zeolite
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The extraordinary advancements recently achieved in materials science mostly derive from the capability to combine/hybridize solids on different dimensional scales. Applying such concepts and further knowledge in the surface/interface field to the energy sector represents an indispensable priority. This paper aims to reveal to scholars involved in the energy research area the enormous potential that functional interface science in hybrid solid systems has for energy transduction.
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eng
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