Hyperbranched Polyesters with Carboxylic or Sulfonic Acid Functional Groups for Crystallization Modification of Calcium Carbonate

Hyperbranched aliphatic polyesters functionalized with carboxylic or sulfonic acid groups have been synthesized and employed as crystallization modifiers for calcium carbonate. The functionalized polyesters exhibit remarkable polymorph selectivity and morphology control. Stable spherical vaterite pa...

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Bibliographic Details
Published in:Macromolecular chemistry and physics 2007-03, Vol.208 (5), p.474-484
Main Authors: Meng, Qingwei, Chen, Dongzhong, Yue, Liwan, Fang, Jianglin, Zhao, Hui, Wang, Lili
Format: Article
Language:English
Subjects:
Applied sciences
calcium carbonate
Cross-disciplinary physics: materials science
rheology
crystallization modifier
Exact sciences and technology
functionalization of polymers
Growth from solutions
hyperbranched
Materials science
Methods of crystal growth
physics of crystal growth
Organic polymers
Physicochemistry of polymers
Physics
polyesters
Polymers with particular properties
Preparation, kinetics, thermodynamics, mechanism and catalysts
vaterite
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Summary:Hyperbranched aliphatic polyesters functionalized with carboxylic or sulfonic acid groups have been synthesized and employed as crystallization modifiers for calcium carbonate. The functionalized polyesters exhibit remarkable polymorph selectivity and morphology control. Stable spherical vaterite particles of diameter less than 10 µm with narrow size distribution were easy to produce on a large scale. With an increase in the concentration and monomer/core ratio of the polyester, the vaterite content increases accordingly with promoted morphology control to monodisperse spheres. The CaCO3 concentration and the initial pH can also influence the morphology and polymorphism of the produced calcium carbonate. Under certain conditions, well‐defined core‐shell structured vaterite spheres are obtained with obvious radial organization by nano‐aggregation of about 70 ± 10 nm crystallites, which may mediate and combine the nano‐aggregation and crystal growth formation mechanism of vaterite polymorph.
ISSN:1022-1352
1521-3935
DOI:10.1002/macp.200600466