Salima Boutti scite author profile

A means of generating latices with solid contents well over 70% (v/v) without the use of intermediate seeds is proposed. It is demonstrated that the use of an electrically neutral initiation system (hydrogen peroxide) in the initial stages of the process, followed by an initiator yielding negatively charged free radicals (ammonium persulphate) changes the way in which the system generates stable particles. The reason for this change is the need to avoid stabilising small, homogeneously nucleated particles during the first portion of the process, and the desire to generate controlled quantities of them during the second portion. The processes are highly reproducible, as are the particle size distributions and rheological properties of the final latices.

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Decomposition of APS and H 2 O 2 for emulsion polymerisation

Schneider¹,

Graillat²,

Boutti³

et al. 2001

Polymer Bulletin

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Silica/Polyamide Nanocomposite Synthesis via an Original Double Emulsification Process in Miniemulsion

Boutti

Bourgeat‐Lami

Zydowicz

2005

Macromol. Rapid Commun.

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Summary: A new method for the encapsulation of inorganic charges by an organic polymer by a reactive double emulsification process is proposed. This work is especially novel since it is highly unusual to encounter polymerization reactions in such a double emulsification process. Silica was first synthesized in cyclohexane using a sol–gel process in an inverse microemulsion in the presence of a non‐ionic surfactant (nonylphenyl ether polyoxyethylene), tetraethoxysilane, and concentrated ammonia. The coupling agent, 3‐aminopropyl triethoxysilane, was then grafted onto the surface of the silica nanoparticles. In a third step, direct miniemulsions were prepared from the microemulsion containing the functionalized silica nanoparticles. The miniemulsions were prepared using sodium dodecylsulfate as the surfactant and cetyl alcohol as the costabilizer. Finally, an interfacial polycondensation occurred between a diamine added to the external phase and sebacoyl chloride in solution in the dispersed phase. The formation of polyamide latexes was proven using infrared spectroscopy, and observation of the nanocomposites by transmission electron microscopy showed mean diameters of 100 nm.TEM micrograph of silica/polyamide nanocomposite particlesmagnified imageTEM micrograph of silica/polyamide nanocomposite particles

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Salima Boutti

Macromol. React. Eng. 5–6/2009

New routes to high solid content latexes: a process for in situ particle nucleation and growth

Decomposition of APS and H 2 O 2 for emulsion polymerisation

Silica/Polyamide Nanocomposite Synthesis via an Original Double Emulsification Process in Miniemulsion

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