Add to ORKGMicroencapsulations protects the dye molecule from secondary reactions and release until contact with the fiber, triggered by stimuli. The procedure was performed using poly(lactic-acid-co-glycolic-acid), PLGA, and polyvinyl alcohol, PVA, and was confirmed via optical microscopy. UV-VIS spectroscopy assessed the efficiency of the encapsulation; and, the mathematical models of Korsmeyer-Peppas and Higuchi quantified controlled-release of dye. The microcapsules formed a core-shell structure, with a perfect sphere shape and homogeneous size. The release adjustments yielded the apparent diffusion coefficientPostprint (published version
Gallic acid was microencapsulated in poly-¿-caprolactone by the solvent evaporation method and was a...
We report the preparation and characterization of photocleavable polyurea microcapsules. First, an i...
The review provides an overview of research findings on microencapsulation for functional textile co...
Microencapsulations protects the dye molecule from secondary reactions and release until contact wit...
Fragrant and antimicrobial properties were conferred to cotton fabrics following microencapsulation ...
<p>The textile industry can benefit from the use of microcapsules, both adding value to products thr...
The aim of this study is to develop methods to reinforce polymeric microspheres with cellulose nanoc...
The main objective of this work was to increase the retarding effect of the acid dye Telon Blue RR (...
Encapsulation imparts new properties and added value to conventional fabrics. Most of the commercia...
Triggered release from responsive drug reservoirs activated by remote stimuli is desired in a range ...
The industrial interest for microencapsulation techniques to produce innovative materials has increa...
Nylon coated microcapsules containing hydrophilic solvent-soluble anionic, cationic or quaternary dr...
Microencapsulation, a technique that allows liquid or solid agents, such as drugs, proteins, cosmeti...
[EN] The use of orange oil presents as an ecological alternative to chemicals, attracting the attent...
Microencapsulated finishes are an important element in the development of new textiles. In this cont...
Gallic acid was microencapsulated in poly-¿-caprolactone by the solvent evaporation method and was a...
We report the preparation and characterization of photocleavable polyurea microcapsules. First, an i...
The review provides an overview of research findings on microencapsulation for functional textile co...
Microencapsulations protects the dye molecule from secondary reactions and release until contact wit...
Fragrant and antimicrobial properties were conferred to cotton fabrics following microencapsulation ...
<p>The textile industry can benefit from the use of microcapsules, both adding value to products thr...
The aim of this study is to develop methods to reinforce polymeric microspheres with cellulose nanoc...
The main objective of this work was to increase the retarding effect of the acid dye Telon Blue RR (...
Encapsulation imparts new properties and added value to conventional fabrics. Most of the commercia...
Triggered release from responsive drug reservoirs activated by remote stimuli is desired in a range ...
The industrial interest for microencapsulation techniques to produce innovative materials has increa...
Nylon coated microcapsules containing hydrophilic solvent-soluble anionic, cationic or quaternary dr...
Microencapsulation, a technique that allows liquid or solid agents, such as drugs, proteins, cosmeti...
[EN] The use of orange oil presents as an ecological alternative to chemicals, attracting the attent...
Microencapsulated finishes are an important element in the development of new textiles. In this cont...
Gallic acid was microencapsulated in poly-¿-caprolactone by the solvent evaporation method and was a...
We report the preparation and characterization of photocleavable polyurea microcapsules. First, an i...
The review provides an overview of research findings on microencapsulation for functional textile co...