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Title of article :
Surfactive water-soluble copolymers for the preparation of controlled surface nanoparticles by double emulsion/solvent evaporation
Author/Authors :
Chognot، نويسنده , , David and Léonard، نويسنده , , Michèle and Six، نويسنده , , Jean-Luc and Dellacherie، نويسنده , , Edith، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2006
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Abstract :
We have already shown that polylactide (PLA) nanoparticles covered with a hydrophilic polymeric layer can be prepared by simple emulsion/solvent evaporation by using amphiphilic copolymers as surfactants during the procedure. The external layer is then constituted by the hydrophilic part of the macromolecular surfactant. This kind of nanospheres is useful for the encapsulation of lipohilic molecules. e of amphiphilic copolymers as surfactants in the preparation of PLA nanospheres with controlled surface properties, was then applied to the double emulsion/solvent evaporation procedure. The aim was to allow the encapsulation of water-soluble bioactive molecules in PLA particles with controlled surface properties. s paper, we describe the results obtained with three different water-soluble monomethoxypolyethylene oxide (MPEO)-b–PLA diblock copolymers used as surfactants in the preparation of nanoparticles by double emulsion/solvent evaporation. After organic solvent evaporation, the obtained nanospheres were proved to be really covered by a MPEO layer whose characteristics were determined. It was firstly shown that the MPEO-covered particles did not flocculate at 25 °C, even in 4 M NaCl while suspensions of bare nanospheres were destabilized for a NaCl concentration as low as 0.04 M. On the other hand, the suspensions of MPEO-covered nanoparticles in 0.3 M Na2SO4 were found to be very sensitive to temperature as they flocculated at a temperature lying between 45 and 55 °C depending on the MPEO-b–PLA composition. This property was attributed to the fact that MPEO is a polymer with a low critical solution temperature. The concentration of MPEO at the nanoparticle surface was then calculated for the three kinds of particles, from the initial flocculation temperature, and was found to be comparable to the value determined directly.
Keywords :
polymeric surfactants , Double emulsion/solvent evaporation , MPEO-covered PLA nanoparticles , Colloidal stability
Journal title :
Colloids and Surfaces B Biointerfaces
Journal title :
Colloids and Surfaces B Biointerfaces
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