Helium in nanoconfinement: Interplay between geometry and wetting behavior

This paper reviews the most recent research of adsorption of finite helium systems, performed in the frame of Density Functional theory. These comprehend the deposition and spreading of helium droplets on flat alkali metal surfaces, the determination of isotherms, the construction of the phase diagr...

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Autores principales: Ancilotto, F., Barranco, M., Hernández, E.S., Pi, M.
Formato: JOUR
Materias:
Adsorption
Density functional
Helium nanosystems
Cylindrical surface
Helium droplets
Nano-cavities
Nanoconfinements
Planar surface
Wetting behavior
Alkali metals
Atmospheric temperature
Helium
Nanosystems
Phase diagrams
Radioactivity
Wetting
Density functional theory
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00222291_v157_n3-4_p174_Ancilotto
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_00222291_v157_n3-4_p174_Ancilotto
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spelling todo:paper_00222291_v157_n3-4_p174_Ancilotto2023-10-03T14:28:39Z Helium in nanoconfinement: Interplay between geometry and wetting behavior Ancilotto, F. Barranco, M. Hernández, E.S. Pi, M. Adsorption Density functional Helium nanosystems Cylindrical surface Density functional Helium droplets Nano-cavities Nanoconfinements Planar surface Wetting behavior Adsorption Alkali metals Atmospheric temperature Helium Nanosystems Phase diagrams Radioactivity Wetting Density functional theory This paper reviews the most recent research of adsorption of finite helium systems, performed in the frame of Density Functional theory. These comprehend the deposition and spreading of helium droplets on flat alkali metal surfaces, the determination of isotherms, the construction of the phase diagram of helium on such substrates, the adsorption of helium on spherical and cylindrical surfaces, the filling of wedges and of infinite polygonal pores, and the adsorption on planar surfaces structured with an array of parabolic nanocavities. © Springer Science+Business Media, LLC 2009. Fil:Hernández, E.S. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00222291_v157_n3-4_p174_Ancilotto
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Adsorption
Density functional
Helium nanosystems
Cylindrical surface
Density functional
Helium droplets
Nano-cavities
Nanoconfinements
Planar surface
Wetting behavior
Adsorption
Alkali metals
Atmospheric temperature
Helium
Nanosystems
Phase diagrams
Radioactivity
Wetting
Density functional theory
spellingShingle Adsorption
Density functional
Helium nanosystems
Cylindrical surface
Density functional
Helium droplets
Nano-cavities
Nanoconfinements
Planar surface
Wetting behavior
Adsorption
Alkali metals
Atmospheric temperature
Helium
Nanosystems
Phase diagrams
Radioactivity
Wetting
Density functional theory
Ancilotto, F.
Barranco, M.
Hernández, E.S.
Pi, M.
Helium in nanoconfinement: Interplay between geometry and wetting behavior
topic_facet Adsorption
Density functional
Helium nanosystems
Cylindrical surface
Density functional
Helium droplets
Nano-cavities
Nanoconfinements
Planar surface
Wetting behavior
Adsorption
Alkali metals
Atmospheric temperature
Helium
Nanosystems
Phase diagrams
Radioactivity
Wetting
Density functional theory
description This paper reviews the most recent research of adsorption of finite helium systems, performed in the frame of Density Functional theory. These comprehend the deposition and spreading of helium droplets on flat alkali metal surfaces, the determination of isotherms, the construction of the phase diagram of helium on such substrates, the adsorption of helium on spherical and cylindrical surfaces, the filling of wedges and of infinite polygonal pores, and the adsorption on planar surfaces structured with an array of parabolic nanocavities. © Springer Science+Business Media, LLC 2009.
format JOUR
author Ancilotto, F.
Barranco, M.
Hernández, E.S.
Pi, M.
author_facet Ancilotto, F.
Barranco, M.
Hernández, E.S.
Pi, M.
author_sort Ancilotto, F.
title Helium in nanoconfinement: Interplay between geometry and wetting behavior
title_short Helium in nanoconfinement: Interplay between geometry and wetting behavior
title_full Helium in nanoconfinement: Interplay between geometry and wetting behavior
title_fullStr Helium in nanoconfinement: Interplay between geometry and wetting behavior
title_full_unstemmed Helium in nanoconfinement: Interplay between geometry and wetting behavior
title_sort helium in nanoconfinement: interplay between geometry and wetting behavior
url http://hdl.handle.net/20.500.12110/paper_00222291_v157_n3-4_p174_Ancilotto
work_keys_str_mv AT ancilottof heliuminnanoconfinementinterplaybetweengeometryandwettingbehavior
AT barrancom heliuminnanoconfinementinterplaybetweengeometryandwettingbehavior
AT hernandezes heliuminnanoconfinementinterplaybetweengeometryandwettingbehavior
AT pim heliuminnanoconfinementinterplaybetweengeometryandwettingbehavior
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