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1.
What will freestanding borophene nanoribbons look like? An analysis of their possible structures, magnetism and transport properties.
Phys Chem Chem Phys
; 19(2): 1054-1061, 2017 Jan 04.
Artículo
en Inglés
| MEDLINE | ID: mdl-27976763
2.
Spin-polarized transport in hydrogen-passivated graphene and silicene nanoribbons with magnetic transition-metal substituents.
Phys Chem Chem Phys
; 18(32): 22606-16, 2016 Aug 10.
Artículo
en Inglés
| MEDLINE | ID: mdl-27477688
3.
Impact of dimerization and stretching on the transport properties of molybdenum atomic wires.
Nanotechnology
; 21(9): 095205, 2010 Mar 05.
Artículo
en Inglés
| MEDLINE | ID: mdl-20130348
4.
Density functional theory based screening of ternary alkali-transition metal borohydrides: a computational material design project.
J Chem Phys
; 131(1): 014101, 2009 Jul 07.
Artículo
en Inglés
| MEDLINE | ID: mdl-19586090
5.
Tunable gap in stable arsenene nanoribbons opens the door to electronic applications.
RSC Adv
; 9(21): 11818-11823, 2019 Apr 12.
Artículo
en Inglés
| MEDLINE | ID: mdl-35517025
6.
Spin currents and filtering behavior in zigzag graphene nanoribbons with adsorbed molybdenum chains.
J Phys Condens Matter
; 27(13): 135301, 2015 Apr 10.
Artículo
en Inglés
| MEDLINE | ID: mdl-25765052
7.
Spin-dependent electronic conduction along zigzag graphene nanoribbons bearing adsorbed Ni and Fe nanostructures.
J Phys Condens Matter
; 26(16): 165302, 2014 Apr 23.
Artículo
en Inglés
| MEDLINE | ID: mdl-24691196
8.
Electronic structure and transport properties of monatomic Fe chains in a vacuum and anchored to a graphene nanoribbon.
J Phys Condens Matter
; 24(45): 455304, 2012 Nov 14.
Artículo
en Inglés
| MEDLINE | ID: mdl-23092846
9.
Structure and electronic properties of molybdenum monatomic wires encapsulated in carbon nanotubes.
J Phys Condens Matter
; 23(26): 265302, 2011 Jul 06.
Artículo
en Inglés
| MEDLINE | ID: mdl-21666307
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