2006
DOI: 10.1103/physrevb.73.125435
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Theoretical study of iron-filled carbon nanotubes

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Cited by 71 publications
(61 citation statements)
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“…Yet a variety of filled SWCNTs have been modelled (e.g. filled with materials as varied as KI [141], (Sc,Ti,V) 8 C 12 carbohedrenes [142], water [143], DNA [144], Cu [145], Ag and CrO 3 [32], acetylene [146], Ge [147]), a majority of theoretical works mostly concerns transition metal filled SWCNTs, more specifically Fe, and aims at predicting the related magnetic behaviour with respect to the iron wire structure [148,[149][150][151][152].…”
Section: A3 Behaviours and Propertiesmentioning
confidence: 99%
See 1 more Smart Citation
“…Yet a variety of filled SWCNTs have been modelled (e.g. filled with materials as varied as KI [141], (Sc,Ti,V) 8 C 12 carbohedrenes [142], water [143], DNA [144], Cu [145], Ag and CrO 3 [32], acetylene [146], Ge [147]), a majority of theoretical works mostly concerns transition metal filled SWCNTs, more specifically Fe, and aims at predicting the related magnetic behaviour with respect to the iron wire structure [148,[149][150][151][152].…”
Section: A3 Behaviours and Propertiesmentioning
confidence: 99%
“…The magnetic behaviour of filled SWCNTs is also a fast-growing topic, although theoretical works [145,[149][150][151] are still more numerous than experimental ones [12,121,122,178]. (14,14) and (15,15) The latter examples showed that, for iron, the ferromagnetic property is maintained in spite of its nanowire morphology with a nanometre-sized diameter, as a good example of an intrinsic property of the encapsulated material that is transferred to the whole hybrid material.…”
Section: A32 Electronic Properties (Transport Magnetism and Others)mentioning
confidence: 99%
“…Encapsulation of nanotubes with electron-donor or electron-acceptor compounds allows one to increase or, accordingly, decrease an electron density on nanotube walls [5][6][7]. This makes it possible to control the electronic properties of SWNTs by intercalating an electron-acceptor or electron-donor substances and even form a p-n junction, for example, in the case of a partially-filled nanotube, which is essential for application in nanoelectronics.…”
Section: Introductionmentioning
confidence: 99%
“…18 Furthermore, as far as finite ZNTs can be considered as organic molecules containing π electrons, our results can be useful in the interpretation of the local spin polarization at the organicferromagnetic interface, which has been recently described both theoretically and experimentally. 19 Previous calculations of the electronic structure of 3d transition-metal atoms and clusters bonded to carbon nanostructures have considered infinitely long carbon nanotubes, [20][21][22][23][24][25][26][27][28] an infinite graphene sheet, 26,29,30 capped finite ZNTs, 31,32 or finite nanotubes with unsaturated open ends. 33 The effects due to the edge states have not been analyzed in those works.…”
Section: Introductionmentioning
confidence: 99%
“…They found that the magnetism of the encapsulated Fe atoms is not enhanced, in general. Calculations for Fe nanowires inside infinite nanotubes 24 predict ferromagnetic ordering in the iron structure when the ratio between the diameters of the nanowire and the nanotube is small, and a tendency towards AFM ordering when the iron wire fits tightly into the nanotube.…”
Section: Introductionmentioning
confidence: 99%