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Adsolubilisation of organic compounds onto collagen fibres

Hydrophobicity plays an important role in the adsolubilisation of organic molecules onto collagen fibres. NP: 2-naphtol, HPRS: hexamethylpararosaniline hydrochloride, NPEO10: nonylphenol with 10 mol ethylene oxide. [Display omitted] ► Organic molecules are adsolubilised on collagen fibres modified w...

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Published in:Journal of colloid and interface science 2010-11, Vol.351 (2), p.466-471
Main Authors: Maldonado, Fernando, Bautista, Elena, Manich, Albert M., Marsal, Agustín
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cited_by cdi_FETCH-LOGICAL-c385t-b9d073b6a6e4230bcd8f7ebd73a9ad851a00808a265ceb052bc306f2de3ee3073
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container_end_page 471
container_issue 2
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container_title Journal of colloid and interface science
container_volume 351
creator Maldonado, Fernando
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Manich, Albert M.
Marsal, Agustín
description Hydrophobicity plays an important role in the adsolubilisation of organic molecules onto collagen fibres. NP: 2-naphtol, HPRS: hexamethylpararosaniline hydrochloride, NPEO10: nonylphenol with 10 mol ethylene oxide. [Display omitted] ► Organic molecules are adsolubilised on collagen fibres modified with an anionic surfactant. ► The hydrophobicity of the molecules plays a major role in the adsolubilisation phenomenon. ► The higher the hydrophobicity of the organic molecules, the higher the adsolubilisation. Adsolubilisation has been defined as the incorporation to solid–water interfaces of molecules that do not adsorb spontaneously to such interfaces, but can be incorporated through an interaction with an adsorbing surfactant molecule. The aim of this work was to study the adsolubilisation of organic molecules with different hydrophobicity on collagen fibres. Hide powder collagen was treated under mild acidic aqueous conditions with an anionic surfactant, sodium dodecylbenzene sulphonate. Thereafter, five different organic molecules, i.e., benzyl alcohol, 2-naphtol, pararosaniline, hexamethylpararosaniline and nonylphenol with 10 mol ethylene oxide were separately applied to the treated collagen in order to study adsolubilisation as a function of their hydrophobicity. It was found that under acidic conditions all molecules were scarcely adsorbed or not adsorbed by the native hide powder collagen. However, all organic molecules, except benzyl alcohol, were adsolubilised if the hide powder collagen was previously treated with the anionic surfactant. The hydrophobicity of the molecules plays an important role in the adsolubilisation phenomenon with the result that the higher the hydrophobicity (nonylphenol with 10 mol ethylene oxide), the higher the adsolubilisation.
doi_str_mv 10.1016/j.jcis.2010.07.075
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NP: 2-naphtol, HPRS: hexamethylpararosaniline hydrochloride, NPEO10: nonylphenol with 10 mol ethylene oxide. [Display omitted] ► Organic molecules are adsolubilised on collagen fibres modified with an anionic surfactant. ► The hydrophobicity of the molecules plays a major role in the adsolubilisation phenomenon. ► The higher the hydrophobicity of the organic molecules, the higher the adsolubilisation. Adsolubilisation has been defined as the incorporation to solid–water interfaces of molecules that do not adsorb spontaneously to such interfaces, but can be incorporated through an interaction with an adsorbing surfactant molecule. The aim of this work was to study the adsolubilisation of organic molecules with different hydrophobicity on collagen fibres. Hide powder collagen was treated under mild acidic aqueous conditions with an anionic surfactant, sodium dodecylbenzene sulphonate. Thereafter, five different organic molecules, i.e., benzyl alcohol, 2-naphtol, pararosaniline, hexamethylpararosaniline and nonylphenol with 10 mol ethylene oxide were separately applied to the treated collagen in order to study adsolubilisation as a function of their hydrophobicity. It was found that under acidic conditions all molecules were scarcely adsorbed or not adsorbed by the native hide powder collagen. However, all organic molecules, except benzyl alcohol, were adsolubilised if the hide powder collagen was previously treated with the anionic surfactant. 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NP: 2-naphtol, HPRS: hexamethylpararosaniline hydrochloride, NPEO10: nonylphenol with 10 mol ethylene oxide. [Display omitted] ► Organic molecules are adsolubilised on collagen fibres modified with an anionic surfactant. ► The hydrophobicity of the molecules plays a major role in the adsolubilisation phenomenon. ► The higher the hydrophobicity of the organic molecules, the higher the adsolubilisation. Adsolubilisation has been defined as the incorporation to solid–water interfaces of molecules that do not adsorb spontaneously to such interfaces, but can be incorporated through an interaction with an adsorbing surfactant molecule. The aim of this work was to study the adsolubilisation of organic molecules with different hydrophobicity on collagen fibres. Hide powder collagen was treated under mild acidic aqueous conditions with an anionic surfactant, sodium dodecylbenzene sulphonate. Thereafter, five different organic molecules, i.e., benzyl alcohol, 2-naphtol, pararosaniline, hexamethylpararosaniline and nonylphenol with 10 mol ethylene oxide were separately applied to the treated collagen in order to study adsolubilisation as a function of their hydrophobicity. It was found that under acidic conditions all molecules were scarcely adsorbed or not adsorbed by the native hide powder collagen. However, all organic molecules, except benzyl alcohol, were adsolubilised if the hide powder collagen was previously treated with the anionic surfactant. The hydrophobicity of the molecules plays an important role in the adsolubilisation phenomenon with the result that the higher the hydrophobicity (nonylphenol with 10 mol ethylene oxide), the higher the adsolubilisation.</abstract><cop>Amsterdam</cop><pub>Elsevier Inc</pub><pmid>20797724</pmid><doi>10.1016/j.jcis.2010.07.075</doi><tpages>6</tpages></addata></record>
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identifier ISSN: 0021-9797
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subjects Admicelle
Adsolubilisation
Adsorption
Benzenesulfonates - chemistry
Benzyl Alcohol - chemistry
Chemistry
Collagen - chemistry
Ethylene Oxide - chemistry
Exact sciences and technology
Fibrous protein
General and physical chemistry
Gentian Violet - chemistry
Hide powder collagen
Hydrophobic and Hydrophilic Interactions
Hydrophobicity
Membranes, Artificial
Molecular Structure
Naphthols - chemistry
Phenols - chemistry
Rosaniline Dyes - chemistry
Solubility
Surface physical chemistry
Surface-Active Agents - chemistry
Surfactant
Toluidines - chemistry
title Adsolubilisation of organic compounds onto collagen fibres
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