Hybrid Self-Assembly, Crystal, and Fractal Behavior of a Carboxy-Ended Hyperbranched Polyester/Copper Complex

The novel hybrid self‐assembly of a carboxy‐ended hyperbranched polyester/copper complex on glass substrates is presented. Ordered, tree‐like self‐assemblies with sizes of about 400–900 μm and branch widths of about 1 μm are obtained, which demonstrate an intriguing crystalline and fractal structure...

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Bibliographic Details
Published in:Macromolecular chemistry and physics 2013-02, Vol.214 (3), p.370-377
Main Authors: Zhang, Daohong, Li, Junna, Chen, Sufang, Li, Tingcheng, Zhou, Jiliang, Cheng, Xinjian, Zhang, Aiqing
Format: Article
Language:English
Subjects:
AGGLOMERATION
Applied sciences
CALORIMETRY
Copper
COPPER COMPOUNDS
crystal
CUPRIC IONS
Differential scanning calorimetry
Exact sciences and technology
fractal
Fractal analysis
Fractals
hyperbranched
Micelles
Organic polymers
Physicochemistry of polymers
Polyester resins
POLYESTERS
Properties and characterization
RESINS
Self assembly
Structure, morphology and analysis
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Summary:The novel hybrid self‐assembly of a carboxy‐ended hyperbranched polyester/copper complex on glass substrates is presented. Ordered, tree‐like self‐assemblies with sizes of about 400–900 μm and branch widths of about 1 μm are obtained, which demonstrate an intriguing crystalline and fractal structure by XRD, DSC, and SEM techniques. The fractal dimension (Df) of 1.67 suggests a perfect supramolecular structure. Factors affecting the morphology of self‐assembly, including self‐assembly time, relative humidity, and concentration of the complex, are investigated and the hybrid self‐assembly is attributed to the synergistic action of cupric ion coordination induction, micelle formation, and diffusion‐limited aggregation of micelles. Ordered, tree‐like self‐assemblies with sizes of about 400–900 μm and branch widths of about 1 μm are obtained by the surface self‐assembly of a carboxy‐ended hyperbranched polyester/copper complex, showing intriguing crystal and fractal behavior confirmed through XRD, DSC, SEM, and POM. The self‐assembly mechanism is explained by the synergistic action of cupric ion coordination induction, micelle formation, and diffusion‐limited aggregation of micelles.
ISSN:1022-1352
1521-3935
DOI:10.1002/macp.201200550