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Appendix F
N2 - Tarazona NLDFT, Esf = 30.0K
Geometry:
Substrate:
Category:
Method:
Model isotherms were calculated using the prescriptions of Tarazona for density dependent
weighting functions and a cylindrical pore geometry. The wall potential used is k = 30 K, typ-
ical for a silica or alumina surface.
This model file is particularly useful for sizing zeolites or zeolite containing materials that
have substantial micropore volume. The reported pore size range is 3.8 to 387 angstroms.
Reference:
Carbon Slit Pores by NLDFT
N2 -
Carbon Slit Pores by NLDFT
Ar -
Geometry:
Substrate:
Category:
Method:
Model isotherms were calculated using the prescriptions of Tarazona for density dependent
weighting functions and a slit-like pore geometry. These models are slightly different from
N2-DFT and Ar-DFT models that were calculated using NLDFT with density independent
weighting functions.
The reported pore size range is from 3.5 to 1000 angstroms.
Reference:
Carbon Finite Pores, As=6, 2D-NLDFT
N2 -
Carbon Finite Pores, As=6, 2D-NLDFT
Ar -
Geometry:
Substrate:
Category:
Method:
Model isotherms were calculated using the prescriptions of Tarazona for density
dependent weighting functions assuming 2D model of finite slit pores having a diam-
eter-to-width aspect ratio of 6.
F-10
Cylinder
Oxide
Porosity
Nitrogen at 77 K
P. Tarazona, Phys. Rev. A 31: 2672 (1985).
Idem, Phys. Rev. A 32: 3148 (1985).
P. Tarazona, U. M. B. Marconi, and R. Evans, Mol. Phys. 60: 573 (1987).
Slit
Carbon
Porosity
Nitrogen at 77 K; Argon at 87 K
P. Tarazona, Phys. Rev. A 31: 2672 (1985).
Idem, Phys. Rev. A 32: 3148 (1985).
P. Tarazona, U. M. B. Marconi, and R. Evans, Mol. Phys. 60: 573 (1987).
Finite Slit
Carbon
Porosity
Nitrogen at 77 K; Argon at 87 K
ASAP 2020 Confirm
202-42811-01 - Mar 2011
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