Phase behavior of Ar and Kr films on carbon nanotubes

Hye Young Kim; Milton W. Cole; Mamadou Mbaye; Silvina M. Gatica

doi:10.1021/jp200410y

Phase behavior of Ar and Kr films on carbon nanotubes

Hye Young Kim, Milton W. Cole, Mamadou Mbaye, Silvina M. Gatica

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16 Scopus citations

Abstract

Recent experiments (Wang et al., 2010) have found evidence of phase transitions of gases adsorbed on a single carbon nanotube. In order to understand the observations, we have carried out classical grand canonical Monte Carlo simulations of this system, for the cases of Ar and Kr on zigzag and armchair nanotubes with radius R > 0.7 nm. The calculated behavior resembles the experimental results in the case of Ar. However, the prominent, ordered phase found for Kr in both simulations and (classical) energy minimization calculations differs from that deduced from the experimental data. A tentative explanation of the apparent discrepancy is that the experiments involve a nanotube of rather large radius (>1.5 nm).

Original language	English (US)
Pages (from-to)	7249-7257
Number of pages	9
Journal	Journal of Physical Chemistry A
Volume	115
Issue number	25
DOIs	https://doi.org/10.1021/jp200410y
State	Published - Jun 30 2011

All Science Journal Classification (ASJC) codes

Physical and Theoretical Chemistry

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10.1021/jp200410y

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title = "Phase behavior of Ar and Kr films on carbon nanotubes",

abstract = "Recent experiments (Wang et al., 2010) have found evidence of phase transitions of gases adsorbed on a single carbon nanotube. In order to understand the observations, we have carried out classical grand canonical Monte Carlo simulations of this system, for the cases of Ar and Kr on zigzag and armchair nanotubes with radius R > 0.7 nm. The calculated behavior resembles the experimental results in the case of Ar. However, the prominent, ordered phase found for Kr in both simulations and (classical) energy minimization calculations differs from that deduced from the experimental data. A tentative explanation of the apparent discrepancy is that the experiments involve a nanotube of rather large radius (>1.5 nm).",

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T1 - Phase behavior of Ar and Kr films on carbon nanotubes

AU - Kim, Hye Young

AU - Cole, Milton W.

AU - Mbaye, Mamadou

AU - Gatica, Silvina M.

PY - 2011/6/30

Y1 - 2011/6/30

N2 - Recent experiments (Wang et al., 2010) have found evidence of phase transitions of gases adsorbed on a single carbon nanotube. In order to understand the observations, we have carried out classical grand canonical Monte Carlo simulations of this system, for the cases of Ar and Kr on zigzag and armchair nanotubes with radius R > 0.7 nm. The calculated behavior resembles the experimental results in the case of Ar. However, the prominent, ordered phase found for Kr in both simulations and (classical) energy minimization calculations differs from that deduced from the experimental data. A tentative explanation of the apparent discrepancy is that the experiments involve a nanotube of rather large radius (>1.5 nm).

AB - Recent experiments (Wang et al., 2010) have found evidence of phase transitions of gases adsorbed on a single carbon nanotube. In order to understand the observations, we have carried out classical grand canonical Monte Carlo simulations of this system, for the cases of Ar and Kr on zigzag and armchair nanotubes with radius R > 0.7 nm. The calculated behavior resembles the experimental results in the case of Ar. However, the prominent, ordered phase found for Kr in both simulations and (classical) energy minimization calculations differs from that deduced from the experimental data. A tentative explanation of the apparent discrepancy is that the experiments involve a nanotube of rather large radius (>1.5 nm).

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Phase behavior of Ar and Kr films on carbon nanotubes

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