High-resolution ac-calorimetry is reported on the weakly first-order isotropic to nematic (IN) an... more High-resolution ac-calorimetry is reported on the weakly first-order isotropic to nematic (IN) and the continuous nematic to smectic-A (N-SmA) phase transitions in the liquid crystal octylcyanobiphenyl (8CB) doped with a ferroelectric nanoparticle barium titanate, BaTiO 3 (BT). Measurements were performed as a function of BT concentration and over a wide temperature range well above and below the two transitions. From the thermal scans of all samples (having BT mass fraction φ m = 0.001 to 0.014 and pure 8CB), both the IN and the N-SmA transitions evolve in character. Specifically, there appears an unusual change of the IN specific heat peak shape on heating as φ m increases. Both the transitions shift to lower temperature at a different rate for φ m < φ c m = 0.002 as compared to that for φ m > φ c m. The effective transition enthalpies are essentially constant and similar to that seen in the bulk. Using a simple geometric model, the mean distance between the BT particles at the cross-over φ c m is found to be ¯ x c ∼ 3 μm, which is consistent with an estimated surface extrapolation length b for the nematic director. This suggests that the low φ m regime is dominated by an impurity/disorder effect while for φ m > φ c m the mean distance is small enough for the LC to mediate coupling between the BT ferroelectric nanoparticles.
... 1:51 PM2:03 PM. Preview Abstract. Authors: Hektor Kashuri Krishna Sigdel Klaida Kashuri Germ... more ... 1:51 PM2:03 PM. Preview Abstract. Authors: Hektor Kashuri Krishna Sigdel Klaida Kashuri Germano S. Iannacchione. Modulated or AC calorimetry is a well established technique for measuring the temperature dependence of the heat capacity of many complex fluids. ...
A high-resolution ac-calorimetric study of the isotropic to nematic (\emph{IN}) and the nematic t... more A high-resolution ac-calorimetric study of the isotropic to nematic (\emph{IN}) and the nematic to smectic-A (\emph{N-SmA}) phase transitions of carbon nanotubes (CNTs) and liquid crystal octyl-cyanobiphenyl (8CB) composites (8CB+CNTs) as a function of CNTs concentration ...
The effect of carbon nanofiber on the thermal behavior of poly(ethylene-co-propylene) (PEP) as re... more The effect of carbon nanofiber on the thermal behavior of poly(ethylene-co-propylene) (PEP) as revealed by differential scanning calorimetry and thermogravimetric analysis is reported. Analysis showed faster crystallization of PEP at higher temperature upon cooling with the increase of carbon nanofiber (CNF) content. The crystallization behavior changed to a single narrow crystallization peak as compared with the broad double crystallization peak of the neat polymer. This demonstrates the nucleation ability of CNF to induce crystals with more uniform distribution. The modified-Avrami approach was used to study the crystallization behavior. We found that the crystallization rate constant increased with addition of CNFs. The dimensionality of crystal growth was found not to depend significantly on the content of CNF. Thermal degradation in air was monitored using thermogravimetric analysis and observed that the incorporation of nanofiber greater than 2.4 vol% improves thermal stability of PEP. All these results indicate that CNFs can significantly help polymer processing and increase thermal stability of polymers. POLYM. ENG. SCI., 52:408-413, 2012.
The continuous nematic to smectic-A (N -SmA) phase transition has been studied by highresolution ... more The continuous nematic to smectic-A (N -SmA) phase transition has been studied by highresolution ac-calorimetry in binary mixtures of the liquid crystal octylcyanobiphenyl(8CB) and a non-mesogenic, low-molecular weight, solvent n-hexane(hex) as a function of temperature and solvent concentration. Heating and cooling scans about the N -SmA transition temperature were repeatedly performed on pure and six 8CB+hex samples having hexane molar concentration ranging from x hex = 0.02 to 0.12. All 8CB+hex samples in this range of x hex remain macroscopically miscible and exhibit an N -SmA heat capacity peak that shifts non-monotonically to lower temperature and evolves in shape, with a reproducible hysteresis, as x hex increases. The imaginary part of heat capacity remains zero up to x T CP hex ≃ 0.07 above which the distinct peak is observed, corresponding to a jump in both the real and imaginary enthalpy. A simple power-law analysis reveals an effective exponent that increases smoothly from 0.30 to 0.50 with an amplitude ratio
High-resolution ac-calorimetry is reported on the weakly first-order isotropic to nematic (I-N) a... more High-resolution ac-calorimetry is reported on the weakly first-order isotropic to nematic (I-N) and the continuous nematic to smectic-A (N-SmA) phase transitions in the liquid crystal octylcyanobiphenyl (8CB) doped with a ferroelectric nanoparticle barium titanate, BaTiO 3 (BT). Measurements were performed as a function of BT concentration and over a wide temperature range well above and below the two transitions. From the thermal scans of all samples (having BT mass fraction φ m = 0.001 to 0.014 and pure 8CB), both the I-N and the N-SmA transitions evolve in character. Specifically, there appears an unusual change of the I-N specific heat peak shape on heating as φ m increases. Both the transitions shift to lower temperature at a different rate for φ m < φ c m = 0.002 as compared to that for φ m > φ c m . The effective transition enthalpies are essentially constant and similar to that seen in the bulk. Using a simple geometric model, the mean distance between the BT particles at the cross-over φ c m is found to bex c ∼ 3 μm, which is consistent with an estimated surface extrapolation length b for the nematic director. This suggests that the low φ m regime is dominated by an impurity/disorder effect while for φ m > φ c m the mean distance is small enough for the LC to mediate coupling between the BT ferroelectric nanoparticles.
The first-order transition from the isotropic ͑I͒ to smectic-A ͑Sm A͒ phase in the liquid crystal... more The first-order transition from the isotropic ͑I͒ to smectic-A ͑Sm A͒ phase in the liquid crystal 4-cyano-4Ј-decylbiphenyl ͑10CB͒ doped with the polar solvent acetone ͑ace͒ has been studied as a function of solvent concentration by high-resolution ac-calorimetry. Heating and cooling scans were performed for miscible 10CB+ ace samples having acetone mole fractions from x ace = 0.05 ͑1 wt %͒ to 0.36 ͑10%͒ over a wide temperature range from 310 to 327 K. Two distinct first-order phase transition features are observed in the mixture whereas there is only one transition ͑I-Sm A͒ in the pure 10CB for that particular temperature range. Both calorimetric features reproduce on repeated heating and cooling scans and evolve with increasing x ace with the high-temperature feature relatively stable in temperature but reduced in size while the low-temperature feature shifts dramatically to lower temperature and exhibits increased dispersion. The coexistence region increases for the low-temperature feature but remains fairly constant for the high-temperature feature as a function of x ace . Polarizing optical microscopy supports the identification of a smectic phase below the high-temperature heat capacity signature indicating that the low-temperature feature represents an injected smectic-smectic phase transition. These effects may be the consequence of screening the intermolecular potential of the liquid crystals by the solvent that stabilizes a weak smectic phase intermediate of the isotropic and pure smectic-A. Downloaded 02 Nov 2010 to 130.215.103.190. Redistribution subject to AIP license or copyright; see http://jcp.aip.org/about/rights_and_permissions 174501-2 K. P. Sigdel and G. S. Iannacchione J. Chem. Phys. 133, 174501 ͑2010͒ Downloaded 02 Nov 2010 to 130.215.103.190. Redistribution subject to AIP license or copyright; see http://jcp.aip.org/about/rights_and_permissions
High-resolution calorimetry has been performed to study the effect of dilution by a nonmesogenic,... more High-resolution calorimetry has been performed to study the effect of dilution by a nonmesogenic, low-molecular weight solvent ͑linear n-hexane͒ on the isotropic-nematic ͑I-N͒ phase transition in the liquid crystal ͑LC͒ octylcyanobiphenyl ͑8CB͒ as a function of n-hexane concentration. Numerous temperature scans were performed without continuous mixing for pure 8CB and all mixture samples of n-hexane mole fraction ranging from x hex = 0.02 to 0.12. The I-N specific heat peak remains first-order for all samples and shifts toward lower temperature nonlinearly while the two-phase I + N coexistence width broadens linearly with increasing x hex . Multiple heating and cooling scans are reproducible and indicate phase separation, if it occurs, must be on very short length scales and is reversible. These results may be a consequence of a competition between random dilution effects and the tendency to phase separate. It is shown that solvent dilution of a LC, if miscible and depending on solvent structure, can lead to a controlled altering of the intermolecular potentials and softening of the LC viscoelastic properties.
A high-resolution ac-calorimetric study on the weakly first-order isotropic to nematic (I-N )and ... more A high-resolution ac-calorimetric study on the weakly first-order isotropic to nematic (I-N )and the continuous nematic to smectic-A (N -SmA) phase transitions of the liquid crystal octyl-cyanobiphenyl (8CB) doped with well-dispersed multiwall carbon nanotubes (CNTs) as a function of CNT concentrations is reported. Thermal scans were performed for all samples having CNT weight fraction from φw =0.0005 to 0.0060 over a wide temperature range well above and below the two transitions in pure 8CB. Both the I-N and the N -SmA transitions evolve in character and have their transition temperatures qualitatively offset by ∼ 1.10 K lower as compared to that in pure 8CB for all 8CB+CNTs samples. The enthalpy change associated with each phase transition is essentially the same as that of pure 8CB and remains unchanged with increasing φ w . However, there is an evidence that the thermal transport properties of the composites differ from the pure LC upon cooling below a φw-dependent temperature within the nematic phase. In addition, a new Cp feature is resolved for intermediate φw samples that appears to be correlated to this onset temperature.
The effect of a non-mesogenic, low-molecular weight, solvent on the phases of a liquid crystal ca... more The effect of a non-mesogenic, low-molecular weight, solvent on the phases of a liquid crystal can be profound. High-resolution ac-calorimetry has been carried out on the isotropic to nematic (\emph{I}-\emph{N}) and the nematic to smectic-\emph{A} (\emph{N}-Sm\emph{A}) phase ...
A high-resolution ac-calorimetric study of the isotropic to nematic (I-N) and the nematic to smec... more A high-resolution ac-calorimetric study of the isotropic to nematic (I-N) and the nematic to smectic-A (N-SmA) phase transitions of carbon nanotubes (CNTs) and liquid crystal octyl-cyanobiphenyl (8CB) composites (8CB+CNTs) as a function of CNTs concentration is reported. Scans were performed on heating and cooling for all samples (0.5-6 wt% of CNTs) over a wide temperature range well above and below the two transitions in pure 8CB. Both the I-N and the N-SmA transitions evolve in character and have their transition temperatures shift lower as the wt% of CNTs increases. For intermediate wt% values, new transitions features are observed, which suggest new phase ordering of the CNTs within the liquid crystal host.
The first-order transition from the isotropic ($I$) to smectic-$A$(Sm$A$) phase in the liquid cry... more The first-order transition from the isotropic ($I$) to smectic-$A$(Sm$A$) phase in the liquid crystal 4-cyano-4&#x27;-decylbiphenyl (10CB) doped with the polar solvent acetone (ace) has been studied as a function of solvent concentration by high-resolution ac-calorimetry. Heating and ...
Modulated or AC calorimetry is a well established technique for measuring the temperature depende... more Modulated or AC calorimetry is a well established technique for measuring the temperature dependence of the heat capacity of many complex fluids. Employing a dielectric or RF heating method, the heat capacity, thermal conductivity, and the dielectric properties of the sample are all probed simultaneously. Combining the results obtained by this technique for the liquid crystal 4-n-pentyl-4-cyanophenyl (5CB) with those obtained by our novel AC calorimetric technique employing RF (dielectric) heating, we have been able to directly measure the temperature dependence of the imaginary part of the permittivity of this liquid crystal. Measurements were performed over a temperature range from 303 to 313 K, spanning the nematic to isotropic phase transition, as well as radio frequencies from 10 to 30 MHz
Rajratan Basu, Krishna P. Sigdel and Germano S. Iannacchione∗ Order-disorder phenomena laboratory... more Rajratan Basu, Krishna P. Sigdel and Germano S. Iannacchione∗ Order-disorder phenomena laboratory, Department of Physics, Worcester Polytechnic Institute, Worcester, Massachusetts 01609, USA (Dated: May 18, 2009) A high-resolution dielectric and calorimetric study of ...
A high-resolution ac-calorimetric study of the isotropic to nematic (I-N) and the nematic to smec... more A high-resolution ac-calorimetric study of the isotropic to nematic (I-N) and the nematic to smectic-A (N-SmA) phase transitions in nano-colloidal suspensions of Barium Titanate (BaTiO3) in the liquid crystal (LC) octylcyanobiphenyl (8CB) as a function of BaTiO3 concentration is reported. Heating and cooling scans were performed for all samples (0.1 - 1.4 wt% of BaTiO3 and pure 8CB) over a wide temperature range well above and below the two transitions. Both the I-N and the N- SmA transitions evolve in character and have their transition temperatures shift lower as the wt% of BaTiO3 increases. Increasing hysteresis with increasing concentration is also observed at the I- N transition between heating and cooling scans within the two- phase I+N coexistence region. These results will be contrasted with other LC colloidal dispersion systems.
High-resolution ac-calorimetry is reported on the weakly first-order isotropic to nematic (IN) an... more High-resolution ac-calorimetry is reported on the weakly first-order isotropic to nematic (IN) and the continuous nematic to smectic-A (N-SmA) phase transitions in the liquid crystal octylcyanobiphenyl (8CB) doped with a ferroelectric nanoparticle barium titanate, BaTiO 3 (BT). Measurements were performed as a function of BT concentration and over a wide temperature range well above and below the two transitions. From the thermal scans of all samples (having BT mass fraction φ m = 0.001 to 0.014 and pure 8CB), both the IN and the N-SmA transitions evolve in character. Specifically, there appears an unusual change of the IN specific heat peak shape on heating as φ m increases. Both the transitions shift to lower temperature at a different rate for φ m < φ c m = 0.002 as compared to that for φ m > φ c m. The effective transition enthalpies are essentially constant and similar to that seen in the bulk. Using a simple geometric model, the mean distance between the BT particles at the cross-over φ c m is found to be ¯ x c ∼ 3 μm, which is consistent with an estimated surface extrapolation length b for the nematic director. This suggests that the low φ m regime is dominated by an impurity/disorder effect while for φ m > φ c m the mean distance is small enough for the LC to mediate coupling between the BT ferroelectric nanoparticles.
... 1:51 PM2:03 PM. Preview Abstract. Authors: Hektor Kashuri Krishna Sigdel Klaida Kashuri Germ... more ... 1:51 PM2:03 PM. Preview Abstract. Authors: Hektor Kashuri Krishna Sigdel Klaida Kashuri Germano S. Iannacchione. Modulated or AC calorimetry is a well established technique for measuring the temperature dependence of the heat capacity of many complex fluids. ...
A high-resolution ac-calorimetric study of the isotropic to nematic (\emph{IN}) and the nematic t... more A high-resolution ac-calorimetric study of the isotropic to nematic (\emph{IN}) and the nematic to smectic-A (\emph{N-SmA}) phase transitions of carbon nanotubes (CNTs) and liquid crystal octyl-cyanobiphenyl (8CB) composites (8CB+CNTs) as a function of CNTs concentration ...
The effect of carbon nanofiber on the thermal behavior of poly(ethylene-co-propylene) (PEP) as re... more The effect of carbon nanofiber on the thermal behavior of poly(ethylene-co-propylene) (PEP) as revealed by differential scanning calorimetry and thermogravimetric analysis is reported. Analysis showed faster crystallization of PEP at higher temperature upon cooling with the increase of carbon nanofiber (CNF) content. The crystallization behavior changed to a single narrow crystallization peak as compared with the broad double crystallization peak of the neat polymer. This demonstrates the nucleation ability of CNF to induce crystals with more uniform distribution. The modified-Avrami approach was used to study the crystallization behavior. We found that the crystallization rate constant increased with addition of CNFs. The dimensionality of crystal growth was found not to depend significantly on the content of CNF. Thermal degradation in air was monitored using thermogravimetric analysis and observed that the incorporation of nanofiber greater than 2.4 vol% improves thermal stability of PEP. All these results indicate that CNFs can significantly help polymer processing and increase thermal stability of polymers. POLYM. ENG. SCI., 52:408-413, 2012.
The continuous nematic to smectic-A (N -SmA) phase transition has been studied by highresolution ... more The continuous nematic to smectic-A (N -SmA) phase transition has been studied by highresolution ac-calorimetry in binary mixtures of the liquid crystal octylcyanobiphenyl(8CB) and a non-mesogenic, low-molecular weight, solvent n-hexane(hex) as a function of temperature and solvent concentration. Heating and cooling scans about the N -SmA transition temperature were repeatedly performed on pure and six 8CB+hex samples having hexane molar concentration ranging from x hex = 0.02 to 0.12. All 8CB+hex samples in this range of x hex remain macroscopically miscible and exhibit an N -SmA heat capacity peak that shifts non-monotonically to lower temperature and evolves in shape, with a reproducible hysteresis, as x hex increases. The imaginary part of heat capacity remains zero up to x T CP hex ≃ 0.07 above which the distinct peak is observed, corresponding to a jump in both the real and imaginary enthalpy. A simple power-law analysis reveals an effective exponent that increases smoothly from 0.30 to 0.50 with an amplitude ratio
High-resolution ac-calorimetry is reported on the weakly first-order isotropic to nematic (I-N) a... more High-resolution ac-calorimetry is reported on the weakly first-order isotropic to nematic (I-N) and the continuous nematic to smectic-A (N-SmA) phase transitions in the liquid crystal octylcyanobiphenyl (8CB) doped with a ferroelectric nanoparticle barium titanate, BaTiO 3 (BT). Measurements were performed as a function of BT concentration and over a wide temperature range well above and below the two transitions. From the thermal scans of all samples (having BT mass fraction φ m = 0.001 to 0.014 and pure 8CB), both the I-N and the N-SmA transitions evolve in character. Specifically, there appears an unusual change of the I-N specific heat peak shape on heating as φ m increases. Both the transitions shift to lower temperature at a different rate for φ m < φ c m = 0.002 as compared to that for φ m > φ c m . The effective transition enthalpies are essentially constant and similar to that seen in the bulk. Using a simple geometric model, the mean distance between the BT particles at the cross-over φ c m is found to bex c ∼ 3 μm, which is consistent with an estimated surface extrapolation length b for the nematic director. This suggests that the low φ m regime is dominated by an impurity/disorder effect while for φ m > φ c m the mean distance is small enough for the LC to mediate coupling between the BT ferroelectric nanoparticles.
The first-order transition from the isotropic ͑I͒ to smectic-A ͑Sm A͒ phase in the liquid crystal... more The first-order transition from the isotropic ͑I͒ to smectic-A ͑Sm A͒ phase in the liquid crystal 4-cyano-4Ј-decylbiphenyl ͑10CB͒ doped with the polar solvent acetone ͑ace͒ has been studied as a function of solvent concentration by high-resolution ac-calorimetry. Heating and cooling scans were performed for miscible 10CB+ ace samples having acetone mole fractions from x ace = 0.05 ͑1 wt %͒ to 0.36 ͑10%͒ over a wide temperature range from 310 to 327 K. Two distinct first-order phase transition features are observed in the mixture whereas there is only one transition ͑I-Sm A͒ in the pure 10CB for that particular temperature range. Both calorimetric features reproduce on repeated heating and cooling scans and evolve with increasing x ace with the high-temperature feature relatively stable in temperature but reduced in size while the low-temperature feature shifts dramatically to lower temperature and exhibits increased dispersion. The coexistence region increases for the low-temperature feature but remains fairly constant for the high-temperature feature as a function of x ace . Polarizing optical microscopy supports the identification of a smectic phase below the high-temperature heat capacity signature indicating that the low-temperature feature represents an injected smectic-smectic phase transition. These effects may be the consequence of screening the intermolecular potential of the liquid crystals by the solvent that stabilizes a weak smectic phase intermediate of the isotropic and pure smectic-A. Downloaded 02 Nov 2010 to 130.215.103.190. Redistribution subject to AIP license or copyright; see http://jcp.aip.org/about/rights_and_permissions 174501-2 K. P. Sigdel and G. S. Iannacchione J. Chem. Phys. 133, 174501 ͑2010͒ Downloaded 02 Nov 2010 to 130.215.103.190. Redistribution subject to AIP license or copyright; see http://jcp.aip.org/about/rights_and_permissions
High-resolution calorimetry has been performed to study the effect of dilution by a nonmesogenic,... more High-resolution calorimetry has been performed to study the effect of dilution by a nonmesogenic, low-molecular weight solvent ͑linear n-hexane͒ on the isotropic-nematic ͑I-N͒ phase transition in the liquid crystal ͑LC͒ octylcyanobiphenyl ͑8CB͒ as a function of n-hexane concentration. Numerous temperature scans were performed without continuous mixing for pure 8CB and all mixture samples of n-hexane mole fraction ranging from x hex = 0.02 to 0.12. The I-N specific heat peak remains first-order for all samples and shifts toward lower temperature nonlinearly while the two-phase I + N coexistence width broadens linearly with increasing x hex . Multiple heating and cooling scans are reproducible and indicate phase separation, if it occurs, must be on very short length scales and is reversible. These results may be a consequence of a competition between random dilution effects and the tendency to phase separate. It is shown that solvent dilution of a LC, if miscible and depending on solvent structure, can lead to a controlled altering of the intermolecular potentials and softening of the LC viscoelastic properties.
A high-resolution ac-calorimetric study on the weakly first-order isotropic to nematic (I-N )and ... more A high-resolution ac-calorimetric study on the weakly first-order isotropic to nematic (I-N )and the continuous nematic to smectic-A (N -SmA) phase transitions of the liquid crystal octyl-cyanobiphenyl (8CB) doped with well-dispersed multiwall carbon nanotubes (CNTs) as a function of CNT concentrations is reported. Thermal scans were performed for all samples having CNT weight fraction from φw =0.0005 to 0.0060 over a wide temperature range well above and below the two transitions in pure 8CB. Both the I-N and the N -SmA transitions evolve in character and have their transition temperatures qualitatively offset by ∼ 1.10 K lower as compared to that in pure 8CB for all 8CB+CNTs samples. The enthalpy change associated with each phase transition is essentially the same as that of pure 8CB and remains unchanged with increasing φ w . However, there is an evidence that the thermal transport properties of the composites differ from the pure LC upon cooling below a φw-dependent temperature within the nematic phase. In addition, a new Cp feature is resolved for intermediate φw samples that appears to be correlated to this onset temperature.
The effect of a non-mesogenic, low-molecular weight, solvent on the phases of a liquid crystal ca... more The effect of a non-mesogenic, low-molecular weight, solvent on the phases of a liquid crystal can be profound. High-resolution ac-calorimetry has been carried out on the isotropic to nematic (\emph{I}-\emph{N}) and the nematic to smectic-\emph{A} (\emph{N}-Sm\emph{A}) phase ...
A high-resolution ac-calorimetric study of the isotropic to nematic (I-N) and the nematic to smec... more A high-resolution ac-calorimetric study of the isotropic to nematic (I-N) and the nematic to smectic-A (N-SmA) phase transitions of carbon nanotubes (CNTs) and liquid crystal octyl-cyanobiphenyl (8CB) composites (8CB+CNTs) as a function of CNTs concentration is reported. Scans were performed on heating and cooling for all samples (0.5-6 wt% of CNTs) over a wide temperature range well above and below the two transitions in pure 8CB. Both the I-N and the N-SmA transitions evolve in character and have their transition temperatures shift lower as the wt% of CNTs increases. For intermediate wt% values, new transitions features are observed, which suggest new phase ordering of the CNTs within the liquid crystal host.
The first-order transition from the isotropic ($I$) to smectic-$A$(Sm$A$) phase in the liquid cry... more The first-order transition from the isotropic ($I$) to smectic-$A$(Sm$A$) phase in the liquid crystal 4-cyano-4&#x27;-decylbiphenyl (10CB) doped with the polar solvent acetone (ace) has been studied as a function of solvent concentration by high-resolution ac-calorimetry. Heating and ...
Modulated or AC calorimetry is a well established technique for measuring the temperature depende... more Modulated or AC calorimetry is a well established technique for measuring the temperature dependence of the heat capacity of many complex fluids. Employing a dielectric or RF heating method, the heat capacity, thermal conductivity, and the dielectric properties of the sample are all probed simultaneously. Combining the results obtained by this technique for the liquid crystal 4-n-pentyl-4-cyanophenyl (5CB) with those obtained by our novel AC calorimetric technique employing RF (dielectric) heating, we have been able to directly measure the temperature dependence of the imaginary part of the permittivity of this liquid crystal. Measurements were performed over a temperature range from 303 to 313 K, spanning the nematic to isotropic phase transition, as well as radio frequencies from 10 to 30 MHz
Rajratan Basu, Krishna P. Sigdel and Germano S. Iannacchione∗ Order-disorder phenomena laboratory... more Rajratan Basu, Krishna P. Sigdel and Germano S. Iannacchione∗ Order-disorder phenomena laboratory, Department of Physics, Worcester Polytechnic Institute, Worcester, Massachusetts 01609, USA (Dated: May 18, 2009) A high-resolution dielectric and calorimetric study of ...
A high-resolution ac-calorimetric study of the isotropic to nematic (I-N) and the nematic to smec... more A high-resolution ac-calorimetric study of the isotropic to nematic (I-N) and the nematic to smectic-A (N-SmA) phase transitions in nano-colloidal suspensions of Barium Titanate (BaTiO3) in the liquid crystal (LC) octylcyanobiphenyl (8CB) as a function of BaTiO3 concentration is reported. Heating and cooling scans were performed for all samples (0.1 - 1.4 wt% of BaTiO3 and pure 8CB) over a wide temperature range well above and below the two transitions. Both the I-N and the N- SmA transitions evolve in character and have their transition temperatures shift lower as the wt% of BaTiO3 increases. Increasing hysteresis with increasing concentration is also observed at the I- N transition between heating and cooling scans within the two- phase I+N coexistence region. These results will be contrasted with other LC colloidal dispersion systems.
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