Hidrogeles microestructurados de acrilamida y determinación de su capacidad de absorber agua y etanol

Abstract: Recebido em 28/3/12; aceito em 14/2/13; publicado na web em 15/4/13 NANOSTRUCTURED HYDROGELS OF ACRYLAMIDE AND DETERMINING THEIR ABILITY TO ABSORB WATER AND ETHANOL. This paper reports the synthesis of nanostructured hydrogels of acrylamide by a two-step polymerisation process. The first step is performed by inverse microemulsion polymerization (water-in-oil) of N-isopropylacrylamide (NIPA), with these particles then added to aqueous solutions of acrylamide (AM), adding a crosslinking agent. The polymerizatio… Show more

“…The hydrogels of polymers based on acrylamide (PAAm), have been studied for a considerable number of applications. Some of these applications include drug delivery (22)(23)(24)(25), systems of concentration against gradient (26), water remediation (27,28), etc. However, these hydrogels are usually modified to provide different properties, such as a specific response to external stimuli, better mechanical properties or better biocompatibility, between others (29).…”

Synthesis of poly(acrylamide-co-methyl methacrylate) chemicaly cross-linked hydrogels for efficient adsorption of red erionyl dye

“…The hydrogels of polymers based on acrylamide (PAAm), have been studied for a considerable number of applications. Some of these applications include drug delivery (22)(23)(24)(25), systems of concentration against gradient (26), water remediation (27,28), etc. However, these hydrogels are usually modified to provide different properties, such as a specific response to external stimuli, better mechanical properties or better biocompatibility, between others (29).…”

Synthesis of poly(acrylamide-co-methyl methacrylate) chemicaly cross-linked hydrogels for efficient adsorption of red erionyl dye

The effect of the solvent employed in the synthesis of hydrogels of poly (acrylamide-co-methyl methacrylate) on their structure, properties and possible biomedical applications

The effect of water/ethanol ratio and monomer concentration on the size and morphology of polyacrylamide nanogels in a surfactant-free synthesis