Ana Aguiar‐Ricardo scite author profile

Blue: Biocompatible and biodegradable water‐soluble dendrimers comprising ureas within the interior and amino groups on the periphery were synthesized in supercritical carbon dioxide (dendrimer of generation 1 shown in picture). This novel class of dendrimers shows a pH‐dependent intrinsic blue fluorescence at very low concentrations, which makes them potential polymeric fluorescent cell markers.

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Tannic Acid Mediated Suppression of PNIPAAm Microgels Thermoresponsive Behavior

Costa

Coelho

Ilharco³

et al. 2011

Macromolecules

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Tannic acid (TA) complexation with poly(N-isopropylacrylamide) (PNIPAAm) microgels changed their morphology and temperature responsiveness, depending on TA concentration and pH (below the TA pK a ). Complexes prepared with a low TA content had higher low critical solution temperature than pure PNIPAAm microgels as a consequence of the hydrophilic character of TA; however, above a concentration threshold, TA physically cross-links the polymeric network, altering their morphology and suppressing the thermodynamically driven PNIPAAm coil-to-globule transition. DRIFT spectral analysis indicated that within PNIPAAm-TA complexes hydrogen bonds were established between PNIPAAm amide and TA phenolic (CdO 3 3 3 H-O and N-H 3 3 3 O-H) and ester (N-H 3 3 3 O-C) groups. At pH 4, H-bonding was more diverse and extensive than at pH 7; hence the complexes thermoresponsive behavior was altered at lower TA contents for the acidic pH. Above the TA pK a , H-bonding is destabilized and the complexes recovered their spherical morphology and the ability to respond to temperature stimulus, thus demonstrating a reversible process with pH.

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Ana Aguiar‐Ricardo

Asymmetric membranes as ideal wound dressings: An overview on production methods, structure, properties and performance relationship

Biocompatible Polyurea Dendrimers with pH‐Dependent Fluorescence

Tannic Acid Mediated Suppression of PNIPAAm Microgels Thermoresponsive Behavior

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