- Abstract viewed - 62 times
- PDF downloaded - 41 times
Affiliations
E. Sosa
Affiliation not stated
F. Aguirre
Affiliation not stated
P. Rodríguez
Affiliation not stated
A. Uzcátegui
Affiliation not stated
A. E. Mora
Affiliation not stated
J. Férnandez
Affiliation not stated
G. González
Affiliation not stated
F. E. Imbert
Laboratorio de Cinética y Catálisis, Departamento de Química, Facultad de Ciencias, Universidad de Los Andes, Mérida 5101.
How to Cite
A New Synthesis of Nanopore (MCM-41), Subnanopore (ZSM-5) and Composites ZSM-5/MCM-41 from Venezuelan Kaolin. Effect of CTAB/Si Ratio
- E. Sosa ,
- F. Aguirre ,
- P. Rodríguez ,
- A. Uzcátegui ,
- A. E. Mora ,
- J. Férnandez ,
- G. González ,
- F. E. Imbert
Vol 20 No 2 (2011)
Published: Nov 14, 2011
Abstract
The use of national kaolin and silicates as feedstock for the synthesis of micropore (ZSM-5, sub-nanometric dimensions: Φ= 0.56 nm), mesopore (MCM-41, nanometric dimensions: Φ= 3 nm) and composites subnano/nano pores (ZSM-5/MCM- 41) materials was succesful. The pure phases ZSM-5 and Al-MCM-41were synthesized using TPA and CTABr as structure directing agent, respectively. The composite materials were prepared from zeolites crystalised for 18 or 24 h and surfactant/Si = 0.26 or 0.17. The solids were characterized by SEM-EDX, TEM, XRD and N2 adsorption. The SEM-EDX analysis showed an increase of crystaline domain size and Si/Al ratio of zeolite with crystalization time. The composite materials were obtained from gels with surfactant/Si = 0.17.