Your search keyword '"João Pires"' showing total 5 results

1. Effect on selective adsorption of ethane and ethylene of the polyoxometalates impregnation in the metal-organic framework MIL-101

Author

Carlos M. Granadeiro, André D.S. Barbosa, Luís Cunha-Silva, Moisés L. Pinto, Salete S. Balula, João Pires, and Vipin K. Saini

Subjects

Olefin fiber, Adsorption, Chemistry, General Chemical Engineering, Selective adsorption, Inorganic chemistry, Polyoxometalate, Ionic bonding, Metal-organic framework, Surfaces and Interfaces, General Chemistry, Nanoclusters, Catalysis

Abstract

Impregnation of ionic nanostructured units in the pores of metal-organic frameworks (MOFs) is one approach to modify their host–guest interactions. Although, the effect of this approach is well investigated in catalysis, drug delivery, and bio imaging, still little is known about its impact on the selective adsorption properties of MOFs. Here we report the impregnation of two different polyoxometalate (POM) nanoclusters (PW11 and SiW11) into chromium terephthalate-based MOF, MIL-101(Cr), to investigate the post-impregnation changes in selective adsorption behavior, which are observed in terms of an important paraffin–olefin separation, using ethane and ethylene, at high pressure. The PW11 and SiW11 POMs bring π-accepting tendency and highly electronegative oxygen atoms on their surface to MIL-101 structure that selectively increases the affinity of material for ethylene, which is confirmed from isosteric heats of adsorption and selectivity calculation. Impregnated samples retain about 74–81 % of working adsorption capacity, after regeneration by decreasing the pressure. This study shows that anionic metal-oxide nanoclusters (POMs) may be used to change the selectivity of MOFs for olefin molecules.

Published

2013

2. Heats of adsorption from the Dubinin-Astakhov model applied to the characterization of pillared interlayered clays (PILCs)

Author

J.M. Guil, Moisés L. Pinto, and João Pires

Subjects

Isothermal microcalorimetry, Work (thermodynamics), Chemistry, General Chemical Engineering, Inorganic chemistry, Surfaces and Interfaces, General Chemistry, Microporous material, Toluene, Characterization (materials science), chemistry.chemical_compound, Adsorption, Physical chemistry, Molecule, Porosity

Abstract

Heats of adsorption of organic molecules are a useful tool for the characterization of porosity and surface chemistry of microporous materials. This work describes the possibility of using heats of adsorption of organic molecules, estimated from a methodology derived from the Dubinin-Astakhov equation, for the characterization of Pillared Interlayered Clays. The estimated heats were compared with data determined directly by adsorption microcalorimetry. It is shown that the chemical nature of the organic probe molecule strongly conditions the obtained results. The best agreement between calculated and experimental values, amongst the probe molecules studied, was found for toluene.

Published

2010

3. Physical Adsorption of H2S Related to the Conservation of Works of Art: The Role of the Pore Structure at Low Relative Pressure

Author

M. Brotas de Carvalho, Ana P. Carvalho, António João Cruz, and João Pires

Subjects

Chemistry, General Chemical Engineering, Hydrogen sulfide, Mineralogy, Surfaces and Interfaces, General Chemistry, Microporous material, chemistry.chemical_compound, Adsorption, Montmorillonite, Chemical engineering, Volume (thermodynamics), Specific surface area, medicine, Zeolite, Activated carbon, medicine.drug

Abstract

The adsorption isotherms of H2S in selected adsorbents were determined at 298 K, at relative pressures up to about 0.005, aiming the use of these materials in the removal of that pollutant from the museums atmosphere. The Dubinin-Astakhov equation adjusts very well the experimental results, although one cannot interpret the pre-exponential factor w0 as the limiting adsorbed amount. The parameter E, related with the adsorption energy, and the parameter n, that can be associated with the surface heterogeneity of the adsorbents, are correlated and the first is also correlated with the adsorbed amounts. It was not found any expectable relationship between the adsorbed amounts and textural parameters of the adsorbents such as the specific surface area or the microporous volume. This points out that the adsorption of H2S is highly specific. In general, 13X and Y sodium zeolites seem to be the most effective adsorbents, but at lowest tested pressures, near the concentrations found at museums, a pillared clay prepared from a Wyoming montmorillonite seems to be more efficient.

Published

2005

4. Physical Adsorption of H2S Related to the Conservation of Works of Art: The Role of the Pore Structure at Low Relative Pressure.

Author

António Cruz, João Pires, Ana Carvalho, and M. De Carvalho

Abstract

The adsorption isotherms of H2S in selected adsorbents were determined at 298 K, at relative pressures up to about 0.005, aiming the use of these materials in the removal of that pollutant from the museums atmosphere. The Dubinin-Astakhov equation adjusts very well the experimental results, although one cannot interpret the pre-exponential factor w0 as the limiting adsorbed amount. The parameter E, related with the adsorption energy, and the parameter n, that can be associated with the surface heterogeneity of the adsorbents, are correlated and the first is also correlated with the adsorbed amounts. It was not found any expectable relationship between the adsorbed amounts and textural parameters of the adsorbents such as the specific surface area or the microporous volume. This points out that the adsorption of H2S is highly specific. In general, 13X and Y sodium zeolites seem to be the most effective adsorbents, but at lowest tested pressures, near the concentrations found at museums, a pillared clay prepared from a Wyoming montmorillonite seems to be more efficient. [ABSTRACT FROM AUTHOR]

Published

2005

5. Assessment of Hydrophobic-Hydrophilic Properties of Microporous Materials from Water Adsorption Isotherms.

Author

João Pires, Moisés L. Pinto, Ana Carvalho, and M.B. de Carvalho

Abstract

The characterization of the hydrophobic-hydrophilic properties of different types of microporous materials, namely activated carbons, pillared clays and zeolites, was made by the determination of water adsorption isotherms. The data were analysed by the Dubinin and Astakhov (D-A) equation. The use of the E parameter of the D-A equation as a measure of the hydrophobic-hydrophilic character is proposed. When the information obtained from the E parameter is compared with the information that can be obtained from other parameters used in the literature to characterize the hydrophobicity of materials, it is found that the former is more sensitive and is more directly related with the shape of the adsorption isotherms which, ultimately, is the more direct manifestation of the hydrophobic-hydrophilic properties of a given material. [ABSTRACT FROM AUTHOR]

Published

2003