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1.
采用自主设计搭建的雾化辅助化学气相沉积系统设备,开展了Ga2O3薄膜制备及其特性研究工作。通过X射线衍射研究了沉积温度、系统沉积压差对Ga2O3薄膜结晶质量的影响。结果表明,Ga2O3在425~650 ℃温度区间存在物相转换关系。随着沉积温度从425 ℃升高至650 ℃,薄膜结晶分别由非晶态、纯α-Ga2O3结晶状态向α-Ga2O3、β-Ga2O3两相混合结晶状态改变。通过原子力显微镜表征探究了生长温度对Ga2O3薄膜表面形貌的影响,从475 ℃升高至650 ℃时,薄膜表面粗糙度由26.8 nm下降至24.8 nm。同时,高分辨X射线衍射仪测试表明475 ℃、5 Pa压差条件下的α-Ga2O3薄膜样品半峰全宽仅为190.8″,为高度结晶态的单晶α-Ga2O3薄膜材料。 相似文献
2.
Evolution of electrical conductivity and semiconductor to metal transition of iron oxides at extreme conditions 下载免费PDF全文
Yukai Zhuang 《中国物理 B》2022,31(8):89101-089101
Iron oxides are widely found as ores in Earth's crust and are also important constituents of its interiors. Their polymorphism, composition changes, and electronic structures play essential roles in controlling the structure and geodynamic properties of the solid Earth. While all-natural occurring iron oxides are semiconductors or insulators at ambient pressure, they start to metalize under pressure. Here in this work, we review the electronic conductivity and metallization of iron oxides under high-pressure conditions found in Earth's lower mantle. We summarize that the metallization of iron oxides is generally controlled by the pressure-induced bandgap closure near the Fermi level. After metallization, they possess much higher electrical and thermal conductivity, which will facilitate the thermal convection, support a more stable and thicker D$\prime\prime$ layer, and formulate Earth's magnetic field, all of which will constrain the large-scale dynamos of the mantle and core. 相似文献
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4.
随着我国技术经济水平的提高,电子商务产业快速发展,货运动车组应运而生。采用有限体积方法和重叠网格方法,以及SST k-ω高雷诺数湍流模型,数值模拟研究时速350 km的货运动车组在隧道内交会的压力波,探究货运动车组车体结构即装载门凹陷对隧道内交会压力波的影响。实车试验结果验证了本文数值模拟方法的准确性。研究结果表明,凹陷的装载门使平直车身处的最大正压值增大约20%~30%,且有无凹陷的装载门中心最大正压值的差异百分比维持在35%~80%,最大负压值差异百分比在20%~25%。 相似文献
5.
High pressure can effectively control the phase transition of MoTe2 in experiment, but the mechanism is still unclear. In this work, we show by first-principles calculations that the phase transition is suppressed and phase becomes more stable under high pressure, which originates from the pressure-induced change of the interlayer band occupancies near the Fermi energy. Specifically, the interlayer states of phase tend to be fully occupied under high pressure, while they keep partially occupied for the phase. The increase of the band occupancies makes the phase more favorable in energy and prevents the structure changing from to phase. Moreover, we also analyze the superconductivity under high pressure based on BCS theory by calculating the density of states and phonon spectra. Our results may shed some light on understanding the relationship between the interlayer band occupancy and crystal stability of MoTe2 under high pressures. 相似文献
6.
Eduard Feireisl 《偏微分方程通讯》2019,44(3):271-278
We show the weak–strong uniqueness property for the compressible Navier–Stokes system with general non-monotone pressure law. A weak solution coincides with the strong solution emanating from the same initial data as long as the latter solution exists. 相似文献
7.
Two-dimensional van der Waals magnetic materials are intriguing for applications in the future spintronics devices, so it is crucial to explore strategy to control the magnetic properties. Here, we carried out first-principles calculations and Monte Carlo simulations to investigate the effect of biaxial strain and hydrostatic pressure on the magnetic properties of the bilayer CrI3. We found that the magnetic anisotropy, intralayer and interlayer exchange interactions, and Curie temperature can be tuned by biaxial strain and hydrostatic pressure. Large compressive biaxial strain may induce a ferromagneticto-antiferromagnetic transition of both CrI3 layers. The hydrostatic pressure could enhance the intralayer exchange interaction significantly and hence largely boost the Curie temperature. The effect of the biaxial strain and hydrostatic pressure revealed in the bilayer CrI3 may be generalized to other two-dimensional magnetic materials. 相似文献
8.
Wenjing Li Mingchun Lu Eva Zurek Xuedi Xu Lulu Chen Miao Zhang Lili Gao Xin Zhong Jia Li Xiaoming Zhou Wenyan Liu 《Physics letters. A》2019,383(10):1047-1051
Silicon (Si) is one of the most essential elements, as it is indispensable for modern electronic technology. The standard Si structure at ambient conditions is the cubic diamond structure, and it has an indirect band gap, which prevents it from being considered as a next-generation platform for semiconductor technologies. Therefore, the search for new allotropes of silicon has attracted great attention. Herein, first principles swarm-intelligence structure searches coupled with density-functional theory were performed to explore the stable high-pressure phases of silicon-rich lithium containing compounds, LiSix (). The LiSi4 stoichiometry was predicted to be stable, and it was found to assume one of the following space groups, P4/mnc, Cmmm, and C2/m within the pressure range of 0 to 50 GPa. By removing the Li atoms from these compounds, three silicon allotropes were obtained that were metastable at ambient pressures. Our work illustrates how novel silicon allotropes can be predicted using the CALYPSO method. 相似文献
9.
Ai‐Xin Zhu Qing‐Yuan Yang Soumya Mukherjee Amrit Kumar Cheng‐Hua Deng Andrey A. Bezrukov Mohana Shivanna Michael J. Zaworotko 《Angewandte Chemie (International ed. in English)》2019,58(50):18212-18217
Coordination networks that reversibly switch between closed and open phases are of topical interest since their stepped isotherms can offer higher working capacities for gas‐storage applications than the related rigid porous coordination networks. To be of practical utility, the pressures at which switching occurs, the gate‐opening and gate‐closing pressures, must lie between the storage and delivery pressures. Here we study the effect of linker substitution to fine‐tune gate‐opening and gate‐closing pressure. Specifically, three variants of a previously reported pcu ‐topology MOF, X‐pcu‐5‐Zn , have been prepared: X‐pcu‐6‐Zn , 6 =1,2‐bis(4‐pyridyl)ethane (bpe), X‐pcu‐7‐Zn , 7 =1,2‐bis(4‐pyridyl)acetylene (bpa), and X‐pcu‐8‐Zn , 8 =4,4′‐azopyridine (apy). Each exhibited switching isotherms but at different gate‐opening pressures. The N2, CO2, C2H2, and C2H4 adsorption isotherms consistently indicated that the most flexible dipyridyl organic linker, 6 , afforded lower gate‐opening and gate‐closing pressures. This simple design principle enables a rational control of the switching behavior in adsorbent materials. 相似文献
10.
压力可以引起蛋白折叠与变性。作为蛋白质的基本构成单位,氨基酸在高压下的变化近来年备受关注。在常见的20种氨基酸中,学者们利用高压拉曼技术已研究了多种氨基酸在高压下的变化,研究的最高压力达到30 GPa。为了探究L-丝氨酸(C3H7NO3)在极高压力下的结构变化情况,采用原位高压拉曼技术在常温下对L-丝氨酸晶体进行研究,最高压力达到22.6 GPa。研究发现,当压力达到2.7 GPa时,在102 cm-1处出现新峰,在1 123 cm-1(NH3反对称摇摆振动)处的特征峰出现劈裂;当压力达到5.4 GPa时,L-丝氨酸晶体在574 cm-1处出现新峰,同时原来164 cm-1处峰消失;当压力达到6.0 GPa时,位于226,456,770和2 968 cm-1(CH2伸缩振动)等处出现新峰,877 cm-1处的CC伸缩振动峰发生劈裂,产生894 cm-1新峰;当压力达到7.9 GPa时,在145,151和2 946 cm-1等出现新峰,同时原在CO2摇摆振动峰的肩峰531 cm-1消失;当压力达到11.0 GPa时,位于249 cm-1处的振动峰开始劈叉,在241 cm-1处形成新峰,位于2 956 cm-1(CH2伸缩振动)同时原位于391和431 cm-1处的峰消失;当压力达到17.5 GPa时,在200 cm-1处出现新峰。通过进一步分析L-丝氨酸的拉曼波数随压力的变化,发现很多拉曼峰在1.37,2.2,5.3,7.46和11.0 GPa以及15.5 GPa等压力点处都出现了拐点。其结果表明:L-丝氨酸在0.1~22.6 GPa之间共发生7处结构相变,分别位于压力区间0.1~1.37,2.2~2.7,5.3,6.0,7.46~7.9,10.1~11.0和15.5~17.5 GPa之间。而且,在6.0 GPa新的相变点在之前文献中未论述过。由于L-丝氨酸晶体在6.0 GPa时CC伸缩振动峰发生劈裂,这现象可能是由于压力引起L-丝氨酸晶体分子发生重排导致的,同时L-丝氨酸晶体分子重排导致氢键发生重排,使得L-丝氨酸晶体出现新的CH2伸缩振动峰。L-丝氨酸晶体在10.1~11.0 GPa之间的拉曼光谱变化主要集中在低波数段,该波数段的拉曼振动模式主要与晶体晶格振动等低能量振动有关。同时在高波数段出现新的CH2峰,由此可推测在10.1~11.0 GPa之间,L-丝氨酸晶体的晶格振动发生变化,产生了新的氢键,从而导致了L-丝氨酸晶体结构的改变。L-丝氨酸晶体在15.5~17.5 GPa之间,由于没有发现直接证据证明其发生结构相变,只是在拉曼波数随压力变化中,发现其在17.5 GPa时出现拐点,因此推测L-丝氨酸晶体在15.5~17.5 GPa之间可能发生结构相变。 相似文献