Analysis of the formation mechanism for thermoresponsive-type coacervate with functional copolymers consisting of N-isopropylacrylamide and 2-hydroxyisopropylacrylamide

Biomacromolecules

Volumn 7, Issue 7, 2006, Pages 2230-2236

  Maeda, Tomohiro ^a   Takenouchi, Miki ^a   Yamamoto, Kazuya ^a   Aoyagi, Takao ^a,b  

^a KAGOSHIMA UNIVERSITY   (Japan)

^b JAPAN SCIENCE AND TECHNOLOGY AGENCY   (Japan)

Author keywords

[No Author keywords available]

Indexed keywords

COPOLYMERS; DEHYDRATION; DISSOCIATION; FUNCTIONAL POLYMERS; HYDROPHILICITY; MONOMERS; PARTICLE SIZE ANALYSIS; PH EFFECTS; PHASE TRANSITIONS; SOLUTIONS; SYNTHESIS (CHEMICAL); THERMAL EFFECTS;

FORMATION MECHANISM; HYDROXYISOPROPYLACRYLAMIDE; ISOPROPYLACRYLAMIDE; THERMORESPONSIVE-TYPE COACERVATE;

COLLOIDS;

COPOLYMER; METHYL ORANGE; MONOMER; POLY(N ISOPROPYLACRYLAMIDE); POLYACRYLAMIDE; SODIUM CHLORIDE; WATER;

AQUEOUS SOLUTION; ARTICLE; CHEMICAL COMPOSITION; CHEMICAL MODEL; CHEMICAL STRUCTURE; CLINICAL LABORATORY; COACERVATION; CONCENTRATION (PARAMETERS); CONTROLLED STUDY; DEHYDRATION; DIFFERENTIAL SCANNING CALORIMETRY; DISSOCIATION; HYDROPHILICITY; MODULATION; PARTICLE SIZE; PH MEASUREMENT; PHASE PARTITIONING; PHASE SEPARATION; PHASE TRANSITION; POLYMERIZATION; PRIORITY JOURNAL; PROTON NUCLEAR MAGNETIC RESONANCE; REACTION ANALYSIS; SOLUTE; SYNTHESIS; TEMPERATURE SENSITIVITY; THERMOREGULATION;

ACRYLAMIDES; AZO COMPOUNDS; CALORIMETRY, DIFFERENTIAL SCANNING; MAGNETIC RESONANCE SPECTROSCOPY; MODELS, CHEMICAL; MOLECULAR STRUCTURE; PARTICLE SIZE; POLYMERS; SODIUM CHLORIDE; SOLUTIONS; TEMPERATURE; TIME FACTORS; WATER;

EID: 33746309535     PISSN: 15257797     EISSN: None     Source Type: Journal    
DOI: 10.1021/bm060261m     Document Type: Article

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