3 research outputs found
Flexible Optical Waveguides in Heterocyclic Schiff Base Self-Assembled Hydrogen-Bonded Solvates
Flexible fluorescent crystalline materials exhibit both
mechanical
and optical properties and have received great attention due to their
potential applications in flexible optical devices. Simultaneously
adjusting the mechanical and optical properties of crystalline materials
remains interesting and challenging. In the present work, a guest
molecule was introduced via hydrogen-bonded solvation, which achieved
excellent mechanical elasticity and higher fluorescence emission than
that of the host heterocyclic Schiff base molecule crystal itself.
The crystal structure–property relationship and the molecular
mechanism of the elasticity were then investigated in detail. It revealed
that solvent molecules play a key role in changing both the stacking
of fluorescent molecules and the interaction energy framework. In
addition, the flexible fluorescent solvate exhibits a good waveguide
property. A bent crystal was found to have a larger optical loss coefficient
than a straight crystal. Furthermore, the size effect on the optical
loss coefficient of the waveguide was discussed in which the optical
loss coefficient decreases as the sizes increase. Such a size effect
is usually neglected in waveguide material research and should be
complemented in the performance evaluation of optical waveguides
Flexible Optical Waveguides in Heterocyclic Schiff Base Self-Assembled Hydrogen-Bonded Solvates
Flexible fluorescent crystalline materials exhibit both
mechanical
and optical properties and have received great attention due to their
potential applications in flexible optical devices. Simultaneously
adjusting the mechanical and optical properties of crystalline materials
remains interesting and challenging. In the present work, a guest
molecule was introduced via hydrogen-bonded solvation, which achieved
excellent mechanical elasticity and higher fluorescence emission than
that of the host heterocyclic Schiff base molecule crystal itself.
The crystal structure–property relationship and the molecular
mechanism of the elasticity were then investigated in detail. It revealed
that solvent molecules play a key role in changing both the stacking
of fluorescent molecules and the interaction energy framework. In
addition, the flexible fluorescent solvate exhibits a good waveguide
property. A bent crystal was found to have a larger optical loss coefficient
than a straight crystal. Furthermore, the size effect on the optical
loss coefficient of the waveguide was discussed in which the optical
loss coefficient decreases as the sizes increase. Such a size effect
is usually neglected in waveguide material research and should be
complemented in the performance evaluation of optical waveguides
Table_1_High glucose induced HIF-1α/TREK1 expression and myometrium relaxation during pregnancy.docx
BackgroundThe incidence of gestational diabetes mellitus (GDM) is increasing worldwide. GDM patients have a significantly higher rate of cesarean section and postpartum hemorrhage, suggesting changes in uterine contractility. TWIK-1-related potassium channel (TREK1) expressed in the pregnant uterus and its role in uterine contraction. In this study, we examined the expression of HIF-1α and TREK1 proteins in GDM uterine and investigated whether high glucose levels are involved in the regulation of human uterine smooth muscle cells (HUSMCs) contraction through TREK1, and verified the role of HIF-1α in this process.MethodsCompared the uterine contractility between GDM and normal patients undergoing elective lower segment cesarean section. The HUSMCs were divided into normal glucose group, high glucose group, normal glucose with CoCl2 group, CoCl2 with echinomycin/L-Methionine group, and high glucose with echinomycin/L-Methionine group; Compare the cell contractility of each group. Compared the expression of hypoxia-inducible factor-1α (HIF-1α) and TREK1 protein in each group.ResultsThe contractility of human uterine strips induced by both KCl and oxytocin was significantly lower in patients with GDM compared with that in normal individuals, with increased TREK1 and HIF-1α protein expression. The contractility of cultured HUSMCs was significantly decreased under high glucose levels, which was consistent with increased expression of HIF-1α and TREK1 proteins. The contractility of HUSMCs was decreased when hypoxia was induced by CoCl2 and increased when hypoxia was inhibited by echinomycin. The TREK1 inhibitor L-methionine also recovered the decreased contractility of HUSMCs under high glucose levels or hypoxia.DiscussionThe high glucose levels decreased the contractility of the myometrium, and increased expression of HIF-1a and TREK1 proteins play a role in changes in uterus contractility.</p