(208d) Pressure Gap In Carbon Nanomaterials? Effect of Temperature and Pressure on the Binding of Simple Molecules to Carbon Nanotubes | AIChE

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(208d) Pressure Gap In Carbon Nanomaterials? Effect of Temperature and Pressure on the Binding of Simple Molecules to Carbon Nanotubes

Authors 

Kazachkin, D. V. - Presenter, Temple University
Nishimura, Y. - Presenter, Nagoya University
Irle, S. - Presenter, Nagoya University
Morokuma, K. - Presenter, Emory University
Borguet, E. - Presenter, Temple University

The interaction of
simple molecules with single wall carbon nanotubes (SWCNTs) and carbon black
was shown to depend on the experimental conditions.  For example, acetone dosed
to SWCNTs at 100 K and low pressure (~10-6 Torr) has binding energy
of ~75 kJ/mol.  Increasing exposures at 100 K resulted in the filling of
adsorption sites with lower energies.  Adsorption of acetone at 300 K and high
pressure (~7.6 Torr) results in acetone binding energies of ~120 kJ/ mol. 
Similar phenomena were observed for the interaction of 1,3-butadiene and
n-butane with SWCNTs.  Experiments suggest that these strongly bound species
desorb as intact molecules.  The adsorption under typical UHV conditions (100
K-10-6 Torr) does allow for molecules to access the sites with highest
desorption energy.  Carbon black shows similar behavior to SWCNTs, but with significantly
lower capacity for molecular uptake, consistent with its specific surface area
and porous structure.

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