M. M. Gauthier scite author profile

We have investigated oligomers, polymers, and a model of poly(4,4'-dioxy-2,2'-dimethylazoxybenzenedodecanedioyl). The molecular weights ranged from approximately 700 to 19000. In the oligomeric range, the kinetics of melt and cold crystallization, as well as the kinetics of macroscopic sample alignment in a magnetic field of ~1.8 T, is controlled by the aromatic end-group distribution. Phase transition temperatures increase with increasing molecular weight. A biphasic region (nematic + isotropic) is observed for all oligomers and polymers. Its range of thermal stability shrinks from ~40to ~5 °C as the molecular weight increases. The value of the glass transition temperature is nearly independent of molecular weight or development of crystallinity. The values of phase transition entropy at the N -* I transition and of the nematic order parameter increase with increasing molecular weight to reach a plateau at average chain lengths of 8-10 repeating units. Development of a polymeric mesophase, as characterized by maximum local chain extension, appears to require cooperativity between 8-10 repeating units per chain. The semicrystalline state of higher molecular weight samples is represented in terms of a fringed micelle model, with extended-chain segments forming cybotactic nematic domains.

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Structure–property correlations in some nematic main–chain polyesters

Blumstein¹,

Gauthier²,

Thomas³

et al. 1985

Faraday Discuss. Chem. Soc.

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Alkyl chain order in a linear polymeric liquid crystal

Samulski¹,

Gauthier²,

Blumstein³

et al. 1984

Macromolecules

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The order and mobility of a labeled flexible alkyl chain spacer in the linear thermotropic polymeric nematic liquid crystal poly (2,2'-dimethyl-4,4'-dioxyazoxybenzenedodecanedioyl-d2o) (poly[oxy(3-methyl-l,4phenylene)azoxy(2-methyl-l,4-phenylene)oxy(l,12-dioxo-l,12-dodecanediyl-c¡2o)]) is explored with deuterium NMR. The quadrupolar splittings of the spacer methylene segments in the nematic melt of the polymer are reported as a function of the temperature and are contrasted with observations on model compounds solubilized in a nematic solvent. The orientational order of the spacer CD2 segments is considerably larger than that of labeled chains appended to low molecular mass liquid crystals. Nonequivalent quadrupolar splittings along the labeled spacer indicate that the spacer does not simply adopt the all-trans conformation. The spacer flexibility does decrease substantially (relative to low molecular mass liquid crystals) as the temperature is lowered in the nematic phase. Speculations are advanced about the source of the large even-odd oscillations reported for thermodynamic properties of linear polymeric liquid crystals as the spacer length is varied.

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Investigation of the Nematic-Isotropic Biphase in Thermotropic Main Chain Polymers. Homogeneity of the Pure Isotropic and Nematic Phases. Part III: NMR Study

Esnault¹,

Gauthier²,

Volino³

et al. 1988

Molecular Crystals and Liquid Crystals Incorporating Nonlinear

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Hexagonal Columnar Mesophase D_h In Some Transition Metal Complexes

Giroud‐Godquin

Gauthier

Sigaud

et al. 1986

Molecular Crystals and Liquid Crystals

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M. M. Gauthier

Influence of molecular weight on phase transitions and alignment of a thermotropic nematic polyester

Structure–property correlations in some nematic main–chain polyesters

Alkyl chain order in a linear polymeric liquid crystal

Investigation of the Nematic-Isotropic Biphase in Thermotropic Main Chain Polymers. Homogeneity of the Pure Isotropic and Nematic Phases. Part III: NMR Study

Hexagonal Columnar Mesophase D_h In Some Transition Metal Complexes

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M. M. Gauthier

Influence of molecular weight on phase transitions and alignment of a thermotropic nematic polyester

Structure–property correlations in some nematic main–chain polyesters

Alkyl chain order in a linear polymeric liquid crystal

Investigation of the Nematic-Isotropic Biphase in Thermotropic Main Chain Polymers. Homogeneity of the Pure Isotropic and Nematic Phases. Part III: NMR Study

Hexagonal Columnar Mesophase Dh In Some Transition Metal Complexes

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Product

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Hexagonal Columnar Mesophase D_h In Some Transition Metal Complexes