The structure of 1D CuI crystals inside SWNTs

Киселев, Н.А.; Zakalyukin, R. M.; Жигалина, О. М.; Grobert, Nicole; Kumskov, A. S.; Grigoriev, Yu. V.; Chernysheva, M. V.; Eliseev, A. A.; Крестинин, А. В.; Tret’yakov, Yu. D.; Freitag, Bert; Hutchison, J. L.

doi:10.1111/j.1365-2818.2008.02104.x

Cited by 37 publications

(39 citation statements)

References 16 publications

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“…Later however, hexagonal AgBr was found at high pressure (Schock and Jemison, 1969). Nevertheless the observed images are similar to the images of 1D CuI@SWNT (Kiselev et al, 2008) and 1D CuBr@SWNT, supporting the hexagonal structure. This is attributed to the constrained space of the SWNT's inner channel and interatomic forces between the AgBr and the cylindrical graphene layer.…”

Section: Hrtem 1d Crystal Models Image Simulationsupporting

confidence: 70%

“…Between these rows a zigzag arrangement of dark (bright at + f ) contrast is sandwiched. The observed image resembles that of 1D CuI@SWNT (Kiselev et al, 2008). Here bromide forms the anion sublattice whereas the Cu cations occupy octahedral positions (Ivanov-Shitz & Murin, 2000;Ivanov-Shitz, 2007).…”

Section: Hrtem 1d Crystal Models Image Simulationmentioning

confidence: 77%

“…In a previous paper (Kiselev et al, 2008), we observed several types of the 1D CuI@SWNT images and suggested a hexagonal anion sublattice.…”

Section: Hrtem 1d Crystal Models Image Simulationmentioning

confidence: 99%

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The structure of nanocomposite 1D cationic conductor crystal@SWNT

Киселев

Kumskov

Zakalyukin

et al. 2012

Journal of Microscopy

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SummaryNanocomposites consisting of one-dimensional (1D) crystals of the cationic conductors CuI, CuBr and AgBr inside singlewalled carbon nanotubes, mainly (n, 0), were obtained using the capillary technique. 1D crystal structure models were proposed based on the high resolution transmission electron microscopy performed on a FEI Titan 80-300 at 80 kV with aberration correction. According to the models and image simulations there are two modifications of 1D crystal: hexagonal close-packed bromine (iodine) anion sublattice (growth direction <001>) and 1D crystal cubic structure (growth direction <112>) compressed transversely to the nanotube (D m ∼1.33 nm) axis. Tentatively this kind of 1D crystal can be considered as monoclinic. One modification of the anion sublattice reversibly transforms into the other inside the nanotube, probably initiated by electron beam heating. As demonstrated by micrographs, copper or silver cations can occupy octahedral positions or are statistically distributed across two tetrahedral positions. A 1DAgBr@SWNT (18, 0; 19, 0) pseudoperiodic 'lattice distortion' is revealed resulting from convolution of the nanotube wall function image with 1D cubic crystal function image.

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Section: Hrtem 1d Crystal Models Image Simulationsupporting

confidence: 70%

Section: Hrtem 1d Crystal Models Image Simulationmentioning

confidence: 77%

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The structure of nanocomposite 1D cationic conductor crystal@SWNT

Киселев

Kumskov

Zakalyukin

et al. 2012

Journal of Microscopy

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show abstract

“…Peapods can also be considered as the "1D-crystal@SWNT" nanocomposites (Smith et al, 1998). It stands to mention that in the SWNTs of various diameters the encapsulated compounds (for instance, KI, PbI 2 , CuI, HgTe) can form structures that differ by the number of atoms in the nanotube cross section or by symmetry (Carter et al, 2006;Flahaut et al, 2006a;Kataura et al, 2002;Kiselev et al, 2008). The structure of such nanocrystals differs substantially from the bulk substances both with regards to their symmetry, bond lengths, and bond angles.…”

Section: Structures and Properties Of The "1d-crystal@swnt" Nanocompomentioning

confidence: 99%

“…Geometry of non-interacting atomic packing within one-dimensional cavity Apparently, the nanocrystal structure can change upon variation of the nanotube diameter (e.g. for CuI@SWNT and PbI 2 @SWNT) (Flahaut et al, 2006a;Kiselev et al, 2008). Recently it has been experimentally determined that copper and silver bromides (MHal) 6 /2 can change their symmetry from mm 2 P in the (19,0) and (18,0) SWNTs to m 2 P in the (17,0) SWNTs due to contraction of the <111> and extension of the <112> axis .…”

Section: Structures and Properties Of The "1d-crystal@swnt" Nanocompomentioning

confidence: 99%