Complex Thermal and Bulk Assembling Properties of Dendritic−Linear−Dendritic Triblock Copolymers Depending on the Length of the Middle Block

We report the synthesis, as well as the complex thermal and assembling properties, of a series of three triblock copolymers 1−3, each of which is based on aliphatic polyether third-generation dendron ends that contain tetradecyl peripheries and a hydrophilic linear poly(ethylene oxide) (PEO) middle...

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Published inMacromolecules Vol. 42; no. 12; pp. 4134 - 4140
Main Authors Lee, Eunji, Lee, Byung-Ill, Kim, Seung-Hyun, Lee, Jeong-Kyu, Zin, Wang-Cheol, Cho, Byoung-Ki
Format Journal Article
LanguageEnglish
Published Washington, DC American Chemical Society 23.06.2009
Subjects
Applied sciences
Chemical modifications
Chemical reactions and properties
Exact sciences and technology
Organic polymers
Physicochemistry of polymers
Dendrimer
End group
Aromatic polymer
Thermotropic state
Aminoether
Composition effect
Ether copolymer
Organic anhydride
Mesomorphic state structure
Branched copolymer
Ethylene oxide copolymer
Experimental study
Phase transitions
Amidation
Triblock copolymer
Chemical modification
Liquid crystal polymers
Morphology
Column organization
Preparation
Supramolecular structure
Hydroxyl group
Online AccessGet full text
ISSN0024-9297
1520-5835
DOI10.1021/ma900266s

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Abstract We report the synthesis, as well as the complex thermal and assembling properties, of a series of three triblock copolymers 1−3, each of which is based on aliphatic polyether third-generation dendron ends that contain tetradecyl peripheries and a hydrophilic linear poly(ethylene oxide) (PEO) middle block. Because of the large cross section of the third-generation dendron ends and the amorphous PEO-like dendritic core, the crystallinity of the central PEO coil in each block copolymer is significantly reduced. In particular, copolymers 1 and 2 with relatively short PEO coils (M n = 1000 and 2000 g/mol) revealed no PEO melting. Also, the crystallinity of the peripheral tetradecyl chains was investigated, depending on the PEO morphology. Copolymers 1 and 2, both with amorphous PEO coils, had similar degrees of the tetradecyl crystallinity, 33% and 34%, respectively, while copolymer 3, with a crystalline PEO coil (M n = 4000 g/mol), showed a somewhat higher value of 41%. This is probably due to the hard confinement effect caused by the crystalline PEOs during the tetradecyl crystallization of copolymer 3. In addition to surveying the thermal behavior of the copolymers, their self-assembling behavior was surveyed in the crystalline and liquid crystalline (mesophase) states by SAXS and TEM techniques. The copolymers showed a complex bulk morphological behavior as a function of the PEO coil length. In the crystalline state, copolymers 1 and 2 exhibited columnar assemblies, but they showed different column packing (i.e., oblique and rectangular symmetries for 1 and 2, respectively). Meanwhile, copolymer 3 formed lamellar structures in both of its crystalline states. In the molten states, all copolymers showed microphase-separated microstructures, as indicated by the SAXS and TEM results. Copolymer 1 exhibited a cylindrical mesophase without a long-range order, while copolymers 2 and 3 showed hexagonal columnar and disordered cylindrical mesophases as temperature increased.
AbstractList We report the synthesis, as well as the complex thermal and assembling properties, of a series of three triblock copolymers 1−3, each of which is based on aliphatic polyether third-generation dendron ends that contain tetradecyl peripheries and a hydrophilic linear poly(ethylene oxide) (PEO) middle block. Because of the large cross section of the third-generation dendron ends and the amorphous PEO-like dendritic core, the crystallinity of the central PEO coil in each block copolymer is significantly reduced. In particular, copolymers 1 and 2 with relatively short PEO coils (M n = 1000 and 2000 g/mol) revealed no PEO melting. Also, the crystallinity of the peripheral tetradecyl chains was investigated, depending on the PEO morphology. Copolymers 1 and 2, both with amorphous PEO coils, had similar degrees of the tetradecyl crystallinity, 33% and 34%, respectively, while copolymer 3, with a crystalline PEO coil (M n = 4000 g/mol), showed a somewhat higher value of 41%. This is probably due to the hard confinement effect caused by the crystalline PEOs during the tetradecyl crystallization of copolymer 3. In addition to surveying the thermal behavior of the copolymers, their self-assembling behavior was surveyed in the crystalline and liquid crystalline (mesophase) states by SAXS and TEM techniques. The copolymers showed a complex bulk morphological behavior as a function of the PEO coil length. In the crystalline state, copolymers 1 and 2 exhibited columnar assemblies, but they showed different column packing (i.e., oblique and rectangular symmetries for 1 and 2, respectively). Meanwhile, copolymer 3 formed lamellar structures in both of its crystalline states. In the molten states, all copolymers showed microphase-separated microstructures, as indicated by the SAXS and TEM results. Copolymer 1 exhibited a cylindrical mesophase without a long-range order, while copolymers 2 and 3 showed hexagonal columnar and disordered cylindrical mesophases as temperature increased.
Author Kim, Seung-Hyun
Lee, Eunji
Lee, Jeong-Kyu
Cho, Byoung-Ki
Lee, Byung-Ill
Zin, Wang-Cheol
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Issue 12
Keywords Dendrimer
End group
Aromatic polymer
Thermotropic state
Aminoether
Composition effect
Ether copolymer
Organic anhydride
Mesomorphic state structure
Branched copolymer
Ethylene oxide copolymer
Experimental study
Phase transitions
Amidation
Triblock copolymer
Chemical modification
Liquid crystal polymers
Morphology
Column organization
Preparation
Supramolecular structure
Hydroxyl group
Language English
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Snippet We report the synthesis, as well as the complex thermal and assembling properties, of a series of three triblock copolymers 1−3, each of which is based on...
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acs
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SubjectTerms Applied sciences
Chemical modifications
Chemical reactions and properties
Exact sciences and technology
Organic polymers
Physicochemistry of polymers
Title Complex Thermal and Bulk Assembling Properties of Dendritic−Linear−Dendritic Triblock Copolymers Depending on the Length of the Middle Block
URI http://dx.doi.org/10.1021/ma900266s
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