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Montmorillonites saturated with Li+, Na+, K+, NH4+, Mg2+, Ca2+, Ba2+, or Ni2+ ions can form complexes with propylene carbonate (PC) by intercalation; the d(001) of montmorillonite expands to 19 Å. In the infrared absorption spectra of these complexes, the C=0 stretching band of the intercalated PC molecules shifts to lower frequencies, and the amount of the shift increased with the increase of the polarizing power of the interlayer cations. Water molecules were strongly bound to the cations. The PC molecules interacted with the cations by way of H2O molecules. With the removal of H2O, the PC molecules directly coordinate to the cations and the PC molecules show a much larger red-shift in the C=O frequency. The PC-montmorillonite complexes exhibited osmotic swelling, even in aqueous electrolyte solutions. This finding is interpreted in terms of the formation of thick electric double-layers consisting of PC and H2O between the 2:1 layers.
Gender norms embedded in communities may restrict opportunities and harm the mental health of older adults, yet this phenomenon has received little attention. This study investigates the connection between older adults’ perceptions of community gender norms and mental health and suicide-related outcomes.
Design:
Cross-sectional.
Setting:
This study analyzed data from the 2019 wave of the Japan Gerontological Evaluation Study.
Participants:
In total, 25,937 participants aged 65 years or older in 61 municipalities.
Measurements:
Perceptions of community gender norms were assessed by the respondents’ perceptions of the gender-differentiating language used by those around them such as “You should/should not do XXX, because you are a man/woman.”
Results:
The prevalence of all mental health outcomes was higher among both men and women who perceived community gender norms as restrictive. These associations remained in fully adjusted multivariable analyses. Prevalence ratios for men were 1.36 [95% confidence interval: 1.13, 1.65] for psychological resistance to obtaining help, 1.85 [1.54, 2.23] for depressive symptoms, 1.99 [1.34, 2.96] for suicidal ideation, and 2.15 [1.21, 3.80] for suicide attempts. The corresponding figures for women were 1.39 [1.17, 1.65], 1.80 [1.55, 2.10], 2.13 [1.65, 2.74], 2.62 [1.78, 3.87]. There was a more pronounced association between perceiving community gender norms as restrictive and depressive symptoms and suicidal behaviors among those with nonconventional gender role attitudes compared to those with conventional attitudes.
Conclusions:
Considering the effects of community gender norms, in addition to individual gender role attitudes, may be critical in designing effective public health interventions for improving mental health.
Japan has faced a decline in fertility since the coronavirus disease 2019 (COVID-19) pandemic. This study aimed to investigate the rate of pregnancy postponement and its contributing factors, with a particular focus on economic- and COVID-19 infection-related indicators. This study used data from 768 observations of married women aged 18 to 50 years with pregnancy intentions. The data were obtained from two rounds of a large web-based survey conducted by the Japan COVID-19 and Society Internet Survey (JACSIS) in 2020 and 2021. A generalised estimating equation (GEE) model was employed, as well as Poisson regression models for sub-sample analysis divided by year to estimate the year differential magnitude of the contributing factors’ impacts. Approximately 20% of married women with childbearing intentions postponed their childbearing. The analyses revealed that declining income and anxiety about future household finances were significantly related to delayed childbearing, while fear of COVID-19 and infection rate were not. Additionally, the adverse effects of unfavourable economic conditions were stronger in 2021. Notably, age did not influence the decision of pregnancy postponement. Older women postponed pregnancy just as much as younger women. In conclusion, this study confirmed that the COVID-19 pandemic, particularly its related adverse economic conditions, contributed to Japan’s current baby bust. Considering that advanced maternal age is already common in Japan, this decreased fertility may result in the long-term negative consequence of further population decline.
We fabricated ferroelectric (Pb,La)(Zr,Ti)O3 (PLZT) capacitors withSn:In2O3 (ITO) or Pt top electrodes and investigatedthe ferroelectric properties of these PLZT capacitors. The shape ofpolarization–voltage hysteresis loops was essentially unchanged andthe decrease in the remnant polarization of the ITO/PLZT/Pt capacitors wassmaller than that of the Pt/PLZT/Pt capacitors after annealing with 3%D2 (in N2) at 200°C and 1 Torr(i.e., FGAD). Time of flightsecondary mass spectrometry revealed that the D atoms were incorporated into thePLZT film of the Pt/PLZT/Pt capacitors after 3% D2 annealing,resulting in a decrease in the ferroelectric properties. In comparison, no D ionsignal was detected in the PLZT film after FGAD for ITO/PLZT/Ptcapacitors.
Tin(Sn) and its alloys have been attracting attentions as a negative electrodematerial for sodium-ion secondary batteries with high theoretical capacity(Na15Sn4, ca. 847 mAh/g) and highelectromotiveforce. There still remains the issue as regards the dischargecapacity decrease with increasing the number of cycles. In order to improvecycle performance, there are many studies such as using Sn-Ni alloy, however,using Sn based alloy as negative electrode materials and it suffer from thedisadvantage of lowering of discharge capacity. In this study, a depositionprocess for making Sn film which consists of amorphous structure for negativeelectrode of sodium ion secondary batteries utilizing electordeposition fromaqueous bath was developed. The effect of additives on the surface morphologyand microstructure of Sn film was investigated. Furthermore, we evaluated theeffect of amorphous structure in the Sn film on cycle performance of the Snnegative electrode. Sn film has a good cycle characteristic (>50cycles) and discharge capacity (> 400 mAh/g). Amorphous structure inthe Sn film showed a microscopic effect on the volume change by sodiation anddesodiation.
We launched a health promotion program called the Hamarassen (“let’s get together”) Farm, which provided farming opportunities for the victims of the Great East Japan Earthquake who resided in temporary housing. The aim of this study was to evaluate the effects of this program on physical and mental health in terms of bone mineral density (BMD) and a sense of purpose in life.
Methods
Among 39 female participants in whom BMD was evaluated, there were 12 Hamarassen participants, 8 self-farming control subjects, and 19 non-farming control subjects. BMD was measured by calcaneal quantitative ultrasound immediately after the project launch and 5 months later. A sense of purpose in life prior to and 2 months after the project’s commencement was measured in 21 additional Hamarassen participants by use of the K-I Scale. Interviews were also conducted to qualitatively evaluate the effects of the Hamarassen program.
Results
The mean BMD T-score improved by 0.43 in the Hamarassen group, by 0.33 in the self-farming group, and by 0.06 in the controls (p=0.02). Among the 21 Hamarassen participants in whom mental health was evaluated, the average score for a sense of purpose in life improved from 20.5 to 24.9 (p=0.001).
Conclusions
The Hamarassen Farm provided disaster victims with opportunities for social participation, interpersonal interaction, and physical exercise; such opportunities may improve physical and psychosocial well-being. (Disaster Med Public Health Preparedness. 2015;9:103-110)
We fabricated ferroelectric (Pb,La)(Zr,Ti)O3 (PLZT) capacitors with Sn:In2O3 (ITO) top electrodes using chemical solution deposition. Then, the effects of a thin conductive ITO buffer layer between the Pt bottom electrode and PLZT thin film were investigated in combination with top electrode (ITO/PLZT/ITO/Pt). The H2 degradation resistance of ITO/PLZT/ITO/Pt capacitors with a 3- and 28-nm-thick buffer layer was improved to 78 and 85%, respectively, from 60% without a buffer layer. The time-of-flight secondary ion mass spectrometry profiles indicated the intensity of H ion increased after 45 min forming gas (3% H2/balance N2) annealing.
Today 3D laser scanning is a common technique for digital heritage preservation. We plan to widen the application of its usage to the preservation of regional heritage sites and in the same time, provide digitized 3D contents appealing to both local and general public, in order to enhance the sense of regional identity for the former and to promote tourism among the latter. Since there still remain cost and exhibition issues, we decided to use free, widely distributed software packages for all stages of data post-prcessing and 3D exhibitions. Meshlab and Google SketchUp with appropriate plug-ins are used for data postprocessing and conversion. Google Earth and realXtend are employed as online exhibition platforms and Partiview for offline form. We checked and established the data workflow processes that employed above listed softwares starting with initial 5 million point cloud data of nearby 7th century ancient tomb, and succeeded in providing desired exhibition forms.
Key Words:Laser scanning, 3D Modelling, 3D Exhibition
Project Outline
Project aim
The application of 3D laser scanning to digital preservation of heritage sites is now a popular and commonplace technique. Its results are proven to be of value for archaeological research and also for wider usage such as historical education.
Our plan is to apply this technique to local heritage sites in the region of Utsunomiya city and provide digitized 3D contents appealing to both local and general public. Today regional universities are encouraged to participate in and contribute to the local (not just academic) community. The distribution of public information to outer public is encouraged by the government.
Challenges
The use of 3D laser scanning has been common for some time now. However, when we considered widening the range of its application, there were still problems remaining, namely:
Cost: The cost of commercial laser scanning service including data post-processing is still too high for ordinary academic use, such that basically only large-budget projects for major heritage sites can afford it.
Limited exhibition: Many of the current virtual heritage software packages, either online or offline, are not widely distributed (Champion 2010, 17-18). This severely limits the possibilities of access for the general public.
Potato (Solanum tuberosum) tubers contain vitamin C (VC) and commercial potato chips have more VC content per wet weight by dehydration during frying. However, intestinal absorption of VC from orally ingested potatoes and its transfer to the blood remains questionable. The present study was designed to determine whether the dietary consumption of potatoes affects VC concentration in plasma and urinary excretion of VC in human subjects. After overnight fasting, five healthy Japanese men between 22 and 27 years of age consumed 87 g mashed potatoes and 282 g potato chips. Each portion contained 50 mg of VC, 50 mg VC in mineral water and mineral water. Before and after a single episode of ingestion, blood and urine samples were collected every 30 min or 1 h for 8 h. When measured by subtraction of the initial baseline value before administration of potatoes from the values measured throughout the 8 h test period, plasma VC concentrations increased almost linearly up to 3 h. Subsequently, the values of potato-fed subjects were higher than those of water, but did not differ significantly from those of VC in water (P = 0·14 and P = 0·5). Less VC tended to be excreted in urine during the 8 h test than VC in water alone (17·0 (sem 7·5) and 25·9 (sem 8·8) v. 47·9 (sem 17·9) μmol/mmol creatinine). Upon human consumption, mashed potatoes and potato chips provide VC content that is effectively absorbed in the intestine and transferred to the blood. Clearly, potatoes are a readily available source of dietary VC.
A novel class of secondary battery comprising MH and air electrodes was developed for potential uses in high power density and high energy density applications such as electric or hybrid vehicles and power storage units supporting fuel cell and solar power systems. The air electrode consisted of nickel-based gas diffusion electrode using Ir2Bi2O7-z as oxygen evolution and reduction catalyst. Coin-type of cells using alkaline solutions as electrolyte were designed and fabricated, and the charge-discharge behaviors were evaluated with constant current operation. The discharge voltage and power density were improved by using a thin film membrane, in which the electrolyte was impregnated, between the air and MH electrodes, and the maximum power density was comparable to that of commercially available Ni-MH secondary battery. The MH utilization and the current efficiency of a charge-discharge cycle were found to be more than 90%.
We have demonstrated that 30BaO–15TiO2–30GeO2–25SiO2 (BTGS25) glass is a candidate for fiber-type nonlinear optical devices using crystallization of glass matrix. We determined the glass composition is suitable for crystallized fiber using partial substitution of Ge in 30BaO–15TiO2–55GeO2 (BTG55) by Si. The BTGS25 satisfied both thermal stability for fiber drawing and electronic polarizability for nonlinear optical property. After crystallization, the BTGS25 bulk crystallized glass showed surface crystallization behavior with the polar c-orientation of fresnoite phase, which was favorable for large second-order optical susceptibility. Following the results of the bulk glass, we prepared the BTGS25 glass fiber without precipitation of fresnoite crystallites. The BTGS25 crystallized fiber also showed c-oriented surface crystallization of fresnoite and second harmonic generation, which shows that the crystallized fiber is a promising material for fiber-type optical active devices.
We have fabricated top-gated field effect transistors (FETs) using graphene synthesized by chemical vapor deposition directly on a SiO2/Si substrate without using any transferring processes. Graphene was synthesized on an Fe catalyst film on the substrate at 650°C. The catalyst film was then etched after both ends of the graphene were fixed by source and drain electrodes, leaving the graphene channel connecting the two electrodes. Top-gated FETs were then made by covering graphene channels with HfO2 and depositing top electrodes. The drain current was successfully modulated by the gate voltage and exhibited the bipolar behavior that is characteristic of graphene. Also, it has been shown that graphene channels can sustain an electric current with a density of 107–108 /cm2. Our newly developed fabrication process paves a way to fabricate graphene transistors all over large substrates including Si and glass.
CaBi4Ti4O15 growth on different Platinum substrates was carried out through a sol-gel method. Higher crystallization temperature and 20% excess Bi decreased pyrochlore contents in the CaBi4Ti4O15 films. Repetition through coating, calcination and crystallization decreased void formation on the surface. C-axis oriented thin film could be grown on sputtered platinum substrates with low Pt (200) orientation. On electroplated Pt substrates, (119) oriented CaBi4Ti4O15 thin film was grown, suggesting surface roughness of Pt substrates is a crucial factor for orientation control of sol-gel derived CaBi4Ti4O15 thin film.
ZnO thin films were deposited in a solution with Zn(NO3)2 and DMAB from 60 to 80°C. The effects of cation additives such as Mg, Ga and Al in a aqueous solution were investigated on surface morphology, crystallographic structure and growth rate. By adding 1E−4 mol/l of Ga or Al, the growth rate was enhanced from 0.13 m/h to 0.35-0.38 m/h. In addition, the surface morphology became flat in the case of Al addition.
Tensile creep behavior of silicon nitride with aligned rodlike grains (anisotropic silicon nitride), fabricated by superplastic forging, was investigated at elevated temperatures. Creep rate of the anisotropic silicon nitride was about 1 order of magnitude lower than that of the isotropic one (without forging). The stress sensitivities for the isotropic and anisotropic specimens at 1200 °C were 2.1 and 2.6, respectively, and that for the anisotropic specimen at 1250 °C was 3.6. The grain alignment should cause a remarkable improvement in the creep resistance when a tensile stress is applied along the alignment direction.
Porous silicon nitride with aligned fibrous grains was fabricated by sinter-forging technique, where uniaxial pressure was applied to achieve a specific density after soaking at elevated temperatures. Fibrous silicon nitride grains were formed during the soaking, and the grains were aligned by the subsequent forging. As the result, a specimen with strongly aligned fibrous silicon nitride grains was successfully fabricated. The specimen with a relative density of 76% exhibited high bending strength of 778 MPa.
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