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Modification of the porosity of pillared clays by carbon deposition. I. Polymer carbonization (1996)

Maes, N. ; Vansant, E. F.

Springer

Journal of porous materials 3 (1996), S. 257-266

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ISSN: 1573-4854

Keywords: pillared clay ; pore size modification ; adsorption ; polymers ; carbon

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: Abstract In order to use pillared clays (PILC) for selective adsorption, further modifications of the porous structure are necessary. The deposition of carbon residues onto the porous structure of pillared clays by the carbonization of polymers (polyvinylalcohol) was proposed to achieve a controlled modification of the pore size. Ti and Al-pillared clays (calcined and non-calcined) were impregnated with PVA (different grades and different concentrations and subsequently carbonized to form carbon phases. The effect of the carbon deposits on the porosity of Ti- and Al-PILC is discussed in terms of pore-blocking, pore-filling and pore-narrowing. The deposition of carbon using PVA resulted in a complete pore-blocking for Al-PILC and in a narrowing of the pore size distribution for Ti-PILC, without achieving a controlled pore-narrowing.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01137915

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Molecular probe technique for the assessment of the carbon molecular sieve structure (1995)

Hu, Zhonghua ; Maes, N. ; Vansant, E. F.

Springer

Journal of porous materials 2 (1995), S. 19-23

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ISSN: 1573-4854

Keywords: carbon molecular sieve ; adsorption ; micropore size distribution ; molecular probe ; DR equation

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: Abstract Nitrogen adsorption at 77 K is the most common technique for defining the surface area and pore volume of a porous material. However it is not adequate to assess the microporosity of carbon molecular sieves (CMS), because of activated diffusion effects. In this paper, a molecular probe technique was used to defining the pore size of CMS materials. Adsorption of gases (vapors) with different molecular sizes, were measured by a gravimetric method using a spring balance. The amount adsorbed at room temperature was recorded over a 24-h period. The following molecular probes were chosen: CO2 (0.33 nm), C2H6 (0.4 nm), n-C4H10 (0.43 nm), i-C5H112 (0.5 nm), and CCl4 (0.6 nm). The micropore volumes were estimated by the Dubinin-Raduhkevich (DR) equation. Assuming that the diameters of the micropores are larger than those of the adsorbed molecules, the micropore volume distribution of each sample was estimated. The results demonstrated that the main pore size of the studied CMSs are less than 0.5 nm. One of the samples had a narrow pore size distribution in the range of 0.33–0.43 nm, which is the critical pore size for kinetic separation of oxygen from nitrogen. It is concluded that the molecular probe technique is an effective mean to assess the CMS adsorbents structure, which is not currently possible using conventional approaches with a single adsorbate, such as nitrogen or argon.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00486566

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