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Volumn 33, Issue 11, 2010, Pages 1833-1840
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Inverse free radical suspension polymerization as a potential means to encapsulate biologically active materials
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Author keywords
Microcapsules; Microstructure; Morphology; Phase separation; Polymerization
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Indexed keywords
ACRYLAMIDES;
BIOLOGICALLY ACTIVE MATERIALS;
DISPERSE PHASE;
HOLLOW POLYMER PARTICLES;
INTRAPARTICLE;
INVERSE SUSPENSION POLYMERIZATION;
LOW TEMPERATURES;
METHACRYLIC ACIDS;
METHYLENE BISACRYLAMIDE;
MICROCAPSULES;
MODEL SYSTEM;
PARTICLE MORPHOLOGIES;
POLYMER MICROCAPSULES;
POLYMER MICROSPHERES;
QUALITATIVE MODEL;
ROOM TEMPERATURE;
SOLID MICROSPHERES;
SUSPENSION COPOLYMERIZATION;
SUSPENSION POLYMERIZATION;
VIRULENT PATHOGENS;
WATER SOLUBLE MONOMERS;
ACIDS;
ACRYLIC MONOMERS;
AMIDES;
ENCAPSULATION;
FREE RADICALS;
MICROSPHERES;
MICROSTRUCTURE;
MORPHOLOGY;
PHASE SEPARATION;
POLYMERS;
SUSPENSIONS (COMPONENTS);
SUSPENSIONS (FLUIDS);
FREE RADICAL POLYMERIZATION;
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EID: 77958545838
PISSN: 09307516
EISSN: 15214125
Source Type: Journal
DOI: 10.1002/ceat.201000254 Document Type: Article |
Times cited : (7)
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References (34)
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