Jos Cenens scite author profile

Abstract--The absorption spectra of methylene blue ion exchanged on hectorite, Laponite B, Barasym, or sepiolite in dilute aqueous suspensions show the presence of the monomer, the protonated monomer, the dimer, and the trimer. Due to conformational differences, the absorption band maximum of the monomer with respect to its maximum in aqueous solution is red shifted when it is adsorbed on the external surface and blue shifted when it is adsorbed on the interlamellar surface. The availability of the interlamellar surface for methylene blue as a function of the type of clay and/or the counterion present thereby can be probed. The results indicate that 0.6-0.7% of the cation-exchange capacity of Barasym consists of acid sites capable of protonating methylene blue. Counterions of low hydration energy were found to induce a small number of similar sites in hectorite and Laponite B; hence, these sites must be situated on the external surface. Dimers formed on external surfaces show one absorption band. Dimers formed on the interlamellar surface of hectofite yield spectra having two absorption bands. The trimer was formed only at the external surface. With increasing loading of the clays, the spectra of methylene blue showed metachromasy. The metachromatic behavior can be fully explained by dye aggregation, which is the result of its concentration on the surface. No 7r-electron interaction with the surface oxygens need be invoked.

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Tryptophan Photo-Oxidation by Clay-Adsorbed Sensitizers

Cenens

Schoonheydt

1988

Clay miner.

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A B S T R A C T :The photo-oxidation of tryptophan (TRP), photosensitized by methylene blue (MB) exchanged on hectorite, Wyoming bentonite and laponite is strongly influenced by three factors: (i) Fe(III) in the structure, which quenches the excited state of MB; (ii) the adsorption site of MB, as photo-oxidation only takes place with MB on the external surface; (iii) dye aggregation, which reduces the yield. Rose bengal (RB), chemically anchored on the external surface of Barasym does not sensitize the photo-oxidation of TRP.Two electronically excited singlet states of oxygen are located 94.3 and 157

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Spectroscopy of proflavine adsorbed on clays

Schoonheydt¹,

Cenens²,

Schrijver³

1986

J. Chem. Soc., Faraday Trans. 1

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Probing the Surface of Clays in Aqueous Suspension by Fluorescence Spectroscopy of Proflavine

Cenens¹,

Schoonheydt

Deschryver

1990

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TDI Based Automotive Seating: Solutions for Enhancing Foam Durability

Eetvelde¹,

Banner²,

Cenens³

et al. 2002

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Jos Cenens

Visible Spectroscopy of Methylene Blue on Hectorite, Laponite B, and Barasym in Aqueous Suspension

Tryptophan Photo-Oxidation by Clay-Adsorbed Sensitizers

Spectroscopy of proflavine adsorbed on clays

Probing the Surface of Clays in Aqueous Suspension by Fluorescence Spectroscopy of Proflavine

TDI Based Automotive Seating: Solutions for Enhancing Foam Durability

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