The Influence of the Molecular Structure of Compounds on Their Properties and the Occurrence of Chiral Smectic Phases.

We have designed new chiral smectic mesogens with the -CH2O group near the chiral center. We synthesized two unique rod-like compounds. We determined the mesomorphic properties of these mesogens and confirmed the phase identification using dielectric spectroscopy. Depending on the length of the oligomethylene spacer (i.e., the number of methylene groups) in the achiral part of the molecules, the studied materials show different phase sequences. Moreover, the temperature ranges of the observed smectic phases are different. It can be seen that as the length of the alkyl chain increases, the liquid crystalline material shows more mesophases. Additionally, its clearing (isotropization) temperature increases. The studied compounds are compared with the structurally similar smectogens previously synthesized. The helical pitch measurements were performed using the selective reflection method. These materials can be useful and effective as chiral components and dopants in smectic mixtures targeted for optoelectronics and photonics.

Ferroelectricity in a nematic liquid crystal under a direct current electric field.

We investigated the electrical properties of the liquid crystal compound 4-(4-nitrophenoxycarbonyl)phenyl 2,4-dimethoxybenzoate, known as RM734, exhibiting a ferroelectric nematic phase. The influence of alternating (AC) and direct (DC) current electric fields on the switching process of the polarization vector and dielectric constant of planarly aligned ferronematic and nematic phases were examined. The decrease of the real part of electric permittivity in the ferronematic phase and the creation of a ferroelectric order in the nematic phase under a DC field were demonstrated. The analysis of the results reveals the latching of the ferroelectric state. The applied DC field created a ferroelectric mode in the nematic phase. A new model of collective and molecular relaxations considering the domain structure of the ferronematic phase was proposed. The temperature and DC field dependence of dielectric properties was shown. Spontaneous polarization was measured using the field reversal technique. The spontaneous polarization value reaches the maximum at a fixed temperature.

A Pilot Study of Influence of Endurance Training on the Prooxidative and Antioxidant Status of Women after Breast Cancer.

The objective of this study was to assess the effect of 8-week long endurance training on the prooxidative-antioxidative status of plasma in women treated for breast cancer. The participants of the study were 12 women after radical mastectomy aged 45 to 56 years (M = 50.6 ± 2.9 years), who had undergone full cancer treatment, on average more than 5 years after the treatment (M = 5.9 ± 0.9 years). Body mass components were measured twice using the method of bioelectric impedance analysis. In order to optimize training loads and to assess the level of exercise tolerance of the participants, the group was subject to an ergospirometric exercise test twice, before (1st) and after (2nd) the completion of the training cycle. The blood was also taken twice for biochemical analyses. Statistically significant differences were noted in the maximum exercise load, the level of which increased in the second test (p < 0.05). No change was observed in the level of antioxidative potential, i.e., the content of some variables, ferric reducing ability of plasma (FRAP), urea, total phenolics, thiobarbituric acid reactive substances (TBARS), and in the blood indices of the body's nutritional status during the project (total protein, albumin. Endurance training caused an increase in exercise tolerance and did not cause an aggravation of oxidative stress in women undergoing breast cancer treatment.

Threshold voltage decrease in a thermotropic nematic liquid crystal doped with graphene oxide flakes.

We report a threshold voltage decrease in a nematic liquid crystal compound, 4-cyano-4'-pentylbiphenyl (5CB), doped with graphene oxide (GO) flakes at a concentration of 0.05-0.3 wt %. The threshold voltage decrease was observed at the same concentration in electro-optic and dielectric spectroscopy measurements. The effect is related to the disrupted planar alignment due to the strong π-π stacking between the 5CB's benzene rings and the graphene oxide's structure. Additionally, we present the GO concentration dependence on the isotropic-nematic phase transition temperature, electric anisotropy, splay elastic constant, switch-on time, and switch-off time. The shape and dimensions of the GO flakes were studied using atomic force microscopy (AFM) and scanning electron microscopy (SEM). The influence of the GO concentration on the physical properties and switching process in the presence of the electric field was discussed.

Pretransitional effects in a mesogenic mixture under an electric field.

Nematogenic liquids are materials that are in high demand for many application purposes. Field-induced nematic order in isotropic liquids can be observed by the enhancement of electric permittivity during dielectric spectroscopy measurements under the bias electric field. For this reason, dielectric measurements were done on a nematogenic mixture of highly polar compounds. This paper presents a discussion on the influence of the bias electric field on the dielectric response. We observed a decrease of electric permittivity in the isotropic phase under the bias electric field. This effect is most likely caused by the field-induced creation of some complex molecular objects. In the paper, relaxation parameters of the molecular modes were analyzed. The field-induced orientational order was determined using a dichroic ratio in a guest-host system. The measurements show the significant order parameter in the isotropic phase under an electric field.

The effect of dopant chirality on the properties of self-assembling materials with a ferroelectric order.

A series of achiral hockey stick-shaped molecules forming a tilted smectic I liquid crystal phase as well as one non-mesogenic chiral bistereogenic analogue were synthesized and characterized. Herein, we report an example of an achiral hockey stick-shaped compound exhibiting a smectic I phase with a direct transition to the isotropic phase for the first time. This occurrence was confirmed via polarized light microscopy, dielectric spectroscopy, and XRD studies. Homologues with an odd number of carbon atoms in the oligomethylene spacer chain exhibit a lower clearing point than members posessing an even number of carbon atoms in this chain; thus, a characteristic odd-even effect has been observed. The influence of the synthesized compounds with different degrees of chirality and similar chemical structures on the properties of the host compound with a chiral smectic C phase was investigated. A chiral compound forming a wide-temperature chiral smectic C phase without any additional mesophase and having a short helical pitch was selected as the host material for the creation of two bicomponent systems. The mesomorphism of each binary mixture was characterized using optical microscopy and differential scanning calorimetry. The helical pitch of every binary mixture, forming a chiral smectic C phase, was studied within its full phase temperature range. As expected, the chiral host compound in the smectic C* phase doped with the hockey stick-shaped mesogen exhibited a longer helical pitch and lower spontaneous polarization than the chiral host material. On the other hand, for the chiral host compound doped with a non-mesogenic analogue containing two chiral centres, the helical pitch was shorter, and the spontaneous polarization was higher. These results should be potentially applicable for the design of advanced functional multi-component mixtures useful for various applications. The mesogenic behaviour of one binary mixture, forming both the chiral smectic I and titled chiral smectic C phases, was deeply studied via X-ray diffraction and dielectric spectroscopy techniques.