2009
DOI: 10.1021/jp9071394
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Soft Glass Rheology in Liquid Crystalline Gels Formed by a Monodisperse Dipeptide

Abstract: Thermal and extensive rheological characterization of a nematic liquid crystal gelated with a novel monodisperse dipeptide, also a liquid crystal, has been carried out. For certain concentrations, the calorimetric scans display a two-peak profile across the chiral nematic-isotropic (N*-I) transition, a feature reminiscent of the random-dilution to random-field crossover observed in liquid crystal gels formed with aerosil particles. All samples show shear thinning behavior without a Newtonian plateau region at … Show more

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Cited by 30 publications
(40 citation statements)
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References 44 publications
(57 reference statements)
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“…This is in agreement with some experimental results, 41 which found this behavior of G'' in the low frequency range in liquid crystalline gel systems. In this case, G' was predicted to be constant.…”
Section: Soft Glassy Rheology (Sgr) Model This Model Was Introduced supporting
confidence: 93%
“…This is in agreement with some experimental results, 41 which found this behavior of G'' in the low frequency range in liquid crystalline gel systems. In this case, G' was predicted to be constant.…”
Section: Soft Glassy Rheology (Sgr) Model This Model Was Introduced supporting
confidence: 93%
“…The resulting materials have a wide variety of possible applications from displays to liquid-crystalline semiconductors 7 to sensors. Systems coupling physical gels with liquid crystalline systems have been prepared using physical and chemical gelators 7,8 at the molecular level, with a gel structure determined by the relative temperatures of gelation, T gel and the isotropic-nematic (IN) phase transition T IN . Systems which gel above the IN transition exhibit a random network structure, while systems gelling below this transition experience a) Electronic mail: depablo@uchicago.edu phase separation into filaments aligned with the nematic director.…”
Section: Introductionmentioning
confidence: 99%
“…At low g values, both the samples show strain-independentbehavior for G' and G'',w ith G' > G''.This solid-like behavior is typical of ag el structure. [19] The variation in G' and G'' with angular frequency (w)o btained by keeping the strain amplitude constant in the LVRi ss hown in Figure22b.B oth G' and G'' show almostn ov ariation with w,w itha ne lastic response (G' > G'')o ver the entiref requency range studied, which confirms the gel nature of the samples. G' shows am onotonic decrease for both samples, whereas G'' for 2c passes through am aximum before decreasing.…”
Section: Rheological Studiesmentioning
confidence: 99%
“…The latter feature is associated with soft glassy rheological( SGR) behavior [18] universally seen in materials such as foams,s lurries, and pastes. [19] In the steady-statem easurements the shear viscosity (h)w as determined as the samples were subjectedt oi ncreasing shear rate (ġ). [19] The variation in G' and G'' with angular frequency (w)o btained by keeping the strain amplitude constant in the LVRi ss hown in Figure22b.B oth G' and G'' show almostn ov ariation with w,w itha ne lastic response (G' > G'')o ver the entiref requency range studied, which confirms the gel nature of the samples.…”
Section: Rheological Studiesmentioning
confidence: 99%
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