In w/o emulsification method the water soluble materials are diss

In w/o emulsification method the water soluble selleck chemicals llc materials are dissolved in aqueous phase at specific temperature to

form homogenous solution by stirring. This aqueous phase is added to oil phase to prepare w/o emulsion [33] but in w/w emulsion technique an aqueous solution of water soluble polymers is emulsified as a dispersed phase in an aqueous solution of another polymer that acts as continuous phase. Then the dispersed polymer phase is cross-linked to form IPN network [32]. 3.3. Miniemulsion/Inverse Miniemulsion Technique This technique allows one to create small stable droplets in a continuous phase by the application Inhibitors,research,lifescience,medical of high shear stress [34]. The idea of miniemulsion polymerization is to initiate the polymer in each of the small stabilized droplets. To prevent the degradation of miniemulsion through coalescence, a surfactant and a costablizer are added that are soluble in dispersed phase but insoluble in continuous phase. This process of IPN formation can be divided into three steps. Inhibitors,research,lifescience,medical In the first step, constituent polymers are obtained by sonication using specific Inhibitors,research,lifescience,medical initiator. In the second step, one of the constituent polymers is polymerized and cross-linked using a cross-linking agent. As a result a semi-IPN is formed till the second stage. In the third step, a full IPN

is formed polymerizing and cross-linking the second constituent polymer by the addition of second cross-linker. Figure 4 represents the formation of IPN particles

by the process of direct (oil in water) miniemulsion polymerization. Figure 4 Synthesis of IPN particles by miniemulsion polymerization. In case of inverse miniemulsion (water in oil), hydrophilic monomers can be easily polymerized. In this case the monomer Inhibitors,research,lifescience,medical Inhibitors,research,lifescience,medical solution is miniemulsified in a continuous hydrophobic phase. The polymerization process can be initiated either from the continuous phase or from the droplet. Koul et al. synthesized novel IPN nanogels composed of poly(acrylic acid) and gelatin by inverse miniemulsion technique. Acrylic acid monomer stabilized around the gelatin macromolecules in each droplet was polymerized using ammonium persulfate L-NAME HCl and tetramethyl ethylene diamine and cross-linked with N, N-methylene bisacrylamide (BIS) to form semi-IPN nanogels, which were sequentially cross-linked using glutaraldehyde to form IPNs [35]. 4. Factors That Affect IPN Morphology Most IPN materials that have been investigated show phase separation. The phase however varies in amount, size, shape, and sharpness of their interfaces and degree of continuity. These aspects together constitute the morphology of IPN which includes chemical compatibility of the polymers, interfacial tension, cross-linking densities of the networks, polymerization methods, and IPN composition. Compatibility between polymers is necessary for IPNs because monomers or prepolymers must be in solution or swollen networks during synthesis.

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