A. Kuznetsova et al., Physical adsorption of xenon in open single walled carbon nanotubes: Observation of a quasi-one-dimensional confined Xe phase, J CHEM PHYS, 112(21), 2000, pp. 9590-9598
The adsorption of Xe into carbon single walled nanotubes with both closed a
nd open ends has been investigated using temperature programmed desorption
and other surface analytical tools. It has been found that opening the ends
of the nanotube by chemical cutting increases both the kinetic rate and th
e saturation capacity of the nanotubes for Xe at 95 K. Further enhancement
in Xe adsorption kinetics and capacity are achieved by treating the nanotub
es in vacuum at 1073 K where CO, CO2, CH4, and H-2 are evolved. On this bas
is it is postulated that surface functionalities such as -COOH block entry
ports for adsorption at the nanotube ends and at the defect sites on the wa
lls. The thermal destruction of these functionalities leads to enhanced ads
orption. The denser phase of Xe inside the saturated nanotubes desorbs by z
ero-order kinetics (E-d=26.8 +/- 0.6 kJ/mol). It is postulated that a quasi
-one-dimensional Xe confined phase in equilibrium, with a two-dimensional X
e gas phase on the exterior, provides a phase transition governing the zero
-order kinetics desorption process. (C) 2000 American Institute of Physics.
[S0021-9606(00)71313-4].