Dependence of single-walled carbon nanotube adsorption kinetics on temperature and binding energy

D. S. Rawat; V. Krungleviciute; L. Heroux; M. Bulut; M. M. Calbi; A. D. Migone

doi:10.1021/la8022002

Dependence of single-walled carbon nanotube adsorption kinetics on temperature and binding energy

D. S. Rawat
, V. Krungleviciute
, L. Heroux
, M. Bulut
, M. M. Calbi
, A. D. Migone

Research output: Contribution to journal › Article › peer-review

23 Scopus citations

Abstract

We present results for the isothermal adsorption kinetics of methane, hydrogen, and tetrafluoromethane on closedended single-walled carbon nanotubes. In these experiments, we monitor the pressure decrease as a function of time as equilibrium is approached, after a dose of gas is added to the cell containing the nanotubes. The measurements were performed at different fractional coverages limited to the first layer. The results indicate that, for a given coverage and temperature, the equilibration time is an increasing function of E/(k _BT), where E is the binding energy of the adsorbate and k _BT is the thermal energy. These findings are consistent with recent theoretical predictions and computer simulations results that we use to interpret the experimental measurements.

Original language	English
Pages (from-to)	13465-13469
Number of pages	5
Journal	Langmuir
Volume	24
Issue number	23
DOIs	https://doi.org/10.1021/la8022002
State	Published - Dec 2 2008
Externally published	Yes

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10.1021/la8022002

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title = "Dependence of single-walled carbon nanotube adsorption kinetics on temperature and binding energy",

abstract = "We present results for the isothermal adsorption kinetics of methane, hydrogen, and tetrafluoromethane on closedended single-walled carbon nanotubes. In these experiments, we monitor the pressure decrease as a function of time as equilibrium is approached, after a dose of gas is added to the cell containing the nanotubes. The measurements were performed at different fractional coverages limited to the first layer. The results indicate that, for a given coverage and temperature, the equilibration time is an increasing function of E/(k BT), where E is the binding energy of the adsorbate and k BT is the thermal energy. These findings are consistent with recent theoretical predictions and computer simulations results that we use to interpret the experimental measurements.",

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T1 - Dependence of single-walled carbon nanotube adsorption kinetics on temperature and binding energy

AU - Rawat, D. S.

AU - Krungleviciute, V.

AU - Heroux, L.

AU - Bulut, M.

AU - Calbi, M. M.

AU - Migone, A. D.

PY - 2008/12/2

Y1 - 2008/12/2

N2 - We present results for the isothermal adsorption kinetics of methane, hydrogen, and tetrafluoromethane on closedended single-walled carbon nanotubes. In these experiments, we monitor the pressure decrease as a function of time as equilibrium is approached, after a dose of gas is added to the cell containing the nanotubes. The measurements were performed at different fractional coverages limited to the first layer. The results indicate that, for a given coverage and temperature, the equilibration time is an increasing function of E/(k BT), where E is the binding energy of the adsorbate and k BT is the thermal energy. These findings are consistent with recent theoretical predictions and computer simulations results that we use to interpret the experimental measurements.

AB - We present results for the isothermal adsorption kinetics of methane, hydrogen, and tetrafluoromethane on closedended single-walled carbon nanotubes. In these experiments, we monitor the pressure decrease as a function of time as equilibrium is approached, after a dose of gas is added to the cell containing the nanotubes. The measurements were performed at different fractional coverages limited to the first layer. The results indicate that, for a given coverage and temperature, the equilibration time is an increasing function of E/(k BT), where E is the binding energy of the adsorbate and k BT is the thermal energy. These findings are consistent with recent theoretical predictions and computer simulations results that we use to interpret the experimental measurements.

UR - https://www.scopus.com/pages/publications/62649131693

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VL - 24

SP - 13465

EP - 13469

JO - Langmuir

JF - Langmuir

IS - 23

ER -

Dependence of single-walled carbon nanotube adsorption kinetics on temperature and binding energy

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