The electromechanical coupling factor for the thickness-extensional mode, kt, in KNbO3 crystals has been predicted to be as high as 69% for the 49.5° rotated X-cut about the Y-axis, which is the highest among known piezoelectrics. This paper presents the experimental confirmation of the high coupling factor and elucidates the relationship between the domain structure and the piezoelectric properties in the pseudocubic (001)pc cut, which is close to the maximum kt cut and has a piezoelectric strain constant about 2.9 times that of the Z-cut. Etching of crystals is found to have an outstanding effect on the piezoelectric characteristics. That is, in the case of “as-cut” crystals, the strain versus electric field curves have a large hysteresis and instability due to the occurrence of 60° domains in a high electric field region, whereas etched crystals remain the single domain state and exhibit linear piezoelectric properties even in the high electric field region. It is also demonstrated that the (001)pc cut crystal poled along the 〈001〉pc direction has a polar multidomain structure composed of two kinds of 90° domains, not four kinds of equivalent domains, and that it exhibits almost the same piezoelectric properties as those of single-domain crystals.
The electrodeposition of noble metals, i.e., platinum, palladium, and gold, into macroporous p-type silicon was examined. For platinum and palladium, the electrodeposition proceeded preferentially from the pore bottom to the opening when sodium chloride was used as a supporting electrolyte. When sodium sulfate was used as a supporting electrolyte, the electrodeposition mainly proceeded at pore openings, leading to plugging. For gold electrodeposition, a condition for achieving pore filling from the bottom was not found in either the NaCl or Na 2 SO 4 solutions. Pore depth was another key factor to achieve continuous filling by electrodeposition. As the depth of pores became deeper, the electrodeposition proceeded preferentially from the bottom. The effect of mass transfer in pores was also investigated by changing the concentration of metal ions and applied potential.
Both the D-box and the zinc-binding region (ZBR) of Emi2 are implicated in APC/C inhibition. This article shows that Emi2 binds the APC/C via the C-terminal tail, termed here the RL tail. The RL tail apparently promotes the inhibitory interactions of the D-box and the ZBR with the APC/C. The RL tail thus serves as a docking site for the APC/C.
This paper is concerned with the electromechanical coupling factors for bulk waves in KNbO(3) crystal. The dependence of coupling factors on the orientation of vibrators for various types of vibration modes has been calculated. As a result, it has been found that most of these coupling factors are very large at certain orientations of vibrators. Especially, the maximum coupling factor of the thickness-extensional mode excited with a perpendicular field, k(t ), is as high as 69% for the rotated X-cut by an angle 49.5 degrees about the Y-axis; that of the thickness-shear mode, k(s), is 88% for the X-cut. To the best of our knowledge, these coupling factors are the highest among those of known piezoelectrics. It has also been found that the coupling factor of the width-extensional mode of a thin finite-width plate with electrodes on its edges, k(ww)', is 82% for the rotated Z-cut by an angle 43.5 degrees about the Y-axis. This vibrator would be promising as elements of phased array ultrasonic probes.
Preeclampsia is one of the leading causes of maternal and neonatal mortality and morbidity worldwide. We have previously reported that magnesium sulfate therapy is effective for early-onset (EO) preeclampsia. To investigate the molecular mechanisms underlying this favorable effect, metabolomics analysis of magnesium sulfate–treated preeclamptic placentas was performed using capillary electrophoresis time of flight mass spectrometry. There were significant metabolic differences between EO-preeclamptic placentas (n=7) and other placentas (late-onset preeclampsia [n=3], normal pregnancies [n=10]). In EO-preeclamptic placentas, the glutathione metabolism pathway was markedly upregulated, whereas single-sample gene-set enrichment analysis using a publicly available microarray dataset (GSE75010) showed that the glutathione metabolism pathway was significantly downregulated in EO-preeclamptic placentas compared with nonpreeclamptic controls. Metabolomic profiles showed that magnesium sulfate significantly promoted glutathione production in an immortalized trophoblast cell line under oxidative stress conditions but not under normal conditions. Magnesium sulfate suppressed hydrogen peroxide–induced production of reactive oxygen species. Exploratory analysis revealed that urinary 8-isoprostane was decreased in all 5 women treated with magnesium sulfate for preeclampsia with severe features. These findings suggest that magnesium sulfate is effective for treating EO-preeclampsia partly because of its antioxidant effects on trophoblasts.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.