Comparison of Cavities Formed in Single Crystalline and Polycrystalline α-SiC after H Implantation

Cavities and extended defects formed in single crystalline and polycrystalline α-SiC implanted with H+ions are compared.The samples are investigated by cross-sectional transmission electron microscopy.H₂ bubbles are formed during H implantation and H₂ molecules escape the sample to form cavities during thermal annealing at 1100℃.Microcracks and the extended defects prefer to nucleate in single crystalline α-SiC,but not polycrystalline α-Si C.Grain boundaries can account for...     

抗癌药新剂型-白蛋白微球剂

白蛋白微球剂是一种新的药物剂型。本文概述了微球剂的制备方法及操作条件对作用机理及体内分布的影响,白蛋白微球剂是用人(或牛)血清、药物、附加剂的混合物,注入表面活性剂及注射用棉子油经超声波乳化,再经热或交联剂固化而成,其功能和性质与制备过程中的各种条件如与搅拌速度,乳化剂的用量,固化方式及温度等有关.作用机理主要通过内吞和融合作用,在体内主要分布于肝脏.较其他剂型具有多方面的优越性。     

电话语音智能自动报警系统

主要介绍一种以单片机80C51,ISD1420P语音录放电路、拨号电路及LM567通用音调译码器集成电路为核心,通过电话机实现的远程智能报警系统.该系统实用性强、功能灵活多样,易于扩展,可广泛应用于家庭、办公室、仓库、金融单位等安全防盗报警.     

Formation of nano-twinned 3C-SiC grains in Fe-implanted 6H-SiC after 1500-℃ annealing

A nano-twinned microstructure was found in amorphous SiC after high-temperature annealing. Grazing incidence x-ray diffraction, high-resolution transmission electron microscopy, and electron diffraction were performed to characterize the microstructure and phase transition in the recrystallization layer. After 1500 ℃ or 2-h annealing, 3C-SiC grains and numerous stacking faults on the {111} planes were visible. Some 3C-SiC grains have nano-twinned structure with {011} planes. Between the nano-twinned 3C-SiC grains, there is a stacking fault, indicating that the formation mechanisms of the nano-twinned structure are related to the disorder of Si atoms. The increase in the twin thickness with increasing annealing temperature demonstrates that the nano-twinned structure can sink for lattice defects, in order to improve the radiation tolerance of SiC.     

Effects of Helium Implantation and Subsequent Electron Irradiation on Microstructures of Fe-11 wt.% Cr Model Alloy

Helium effects on dislocation and cavity formation of Fe-11 wt.% Cr model alloy are investigated. Single-beam(electron) and dual-beam(He~+/e~-) irradiations are performed at 350℃ and 400℃ using an ultra-high voltage electron microscope combined with ion accelerators. In-situ observation shows that the growth rate of dislocation loops is reduced in the helium pre-injected specimen. The mean size of cavities decreased in the helium preinjected specimen. The possible mechanisms are discussed.     

CH3 NH3 PbBr3表面修饰对SnO2基光电探测器性能的影响

SnO_2基紫外探测器具有较高的光响应度,但由于材料存在持续光电导效应,其响应时间较长,限制了其在光电探测领域的应用。为此,我们研究了表面修饰对SnO_2基光电探测器件的性能影响。采用化学气相沉积的方法制备了高结晶质量的SnO_2微米线,并在此基础上制备了基于单根SnO_2微米线的光电探测器。同时制备了高质量的钙钛矿CH_3NH_3PbBr_3材料,并与SnO_2微米线结合制备出经过修饰的SnO_2基器件。两种器件在紫外波段都呈现出明显的光响应,响应峰值位于250 nm处。相比单根SnO_2微米线器件,经过修饰后的SnO_2微米线探测器的响应度提高了10倍,响应时间由单根SnO_2微米线器件的几百乃至上千秒缩短为0.9 s。这一研究结果说明我们所采用的方法非常有望应用到高性能SnO_2光电探测器的制备中。     

一种低活化铁素体/马氏体钢的高能重离子辐照效应研究

低活化的铁素体/马氏体钢是先进核能装置（如聚变堆）的重要候选结构材料。 在聚变堆实际工作环境下, 由于高温和高氦产生率引起的材料失效是这类材料面临的一个重要问题。 本项研究以兰州重离子加速器（HIRFL）提供的中能惰性气体离子束（20Ne, 122 MeV）作为模拟辐照条件, 借助透射电子显微镜, 研究了一种低活化的9Cr铁素体/马氏体钢（T92B）组织结构的变化和辐照肿胀。 实验结果表明, 高温下当材料中晶格原子的撞出损伤和惰性气体原子沉积浓度超过一定限值时, 材料内部形成高浓度的空洞, 并且空洞肿胀率显著依赖于辐照温度和剂量; 在马氏体板条界面及其它晶界处空洞趋于优先形成, 并且在晶界交汇处呈加速生长。 基于氦泡的形核生长与空洞肿胀的经典模型探讨了在不同辐照条件（He离子、 Ne离子、 Fe/He离子双束、 快中子、 Ni离子）下铁素体/马氏体钢中肿胀率数据的关联。Low activation Ferritic/Martensitic steels are a kind of important structural materials candidate to the application in advanced nuclear energy systems. Possible degradation of properties and even failure in the condition of high temperature and high helium production due to energetic neutron irradiation in a fusion reactor is a major concern with the application of this kind of materials. In the present work microstructural evolution in a 9Cr Ferritic/Martensitic steel (T92B) irradiated with 122 MeV 20Ne ions at temperatures between 0.3—0.5 Tm (Tm is the melting point of the material) was investigated with transmission electron microscopy. High concentration voids were observed in the specimens irradiated at high temperatures when the displacement damage dose and Ne concentration exceed a certain level. Preferential formation of voids at lath boundaries and other grain boundaries was found. The data of void swellings in 9Cr ferritic/martensitic steels irradiated in different conditions (such as with He ions, Ne ions, Fe/He dual beams, fast neutrons, Ni ions etc.) were compiled and analyzed based on a classic model of helium bubble formation, and bubble to void transition.     

铝镁尖晶石中He离子注入引起损伤的退火行为研究

利用卢瑟福沟道背散射技术结合表面的原子力显微分析,对注He的铝镁尖晶石晶体的晶格损伤及表面形变随退火温度变化的关系进行了研究.结果表明,不同注入剂量的样品中晶格损伤和表面形变表现出显著不同的退火行为.分析认为造成损伤演化的这种差异与注入的He原子在晶体中不同的聚集状态有关. 关键词： 离子注入 He 尖晶石 卢瑟福沟道背散射     

Surface morphology of He-implanted single-crystalline silicon

Single-crystalline Si (100) samples were implanted with 30 keV He²⁺ ions to doses ranging from 2.0×10¹⁶ to 2.0×10¹⁷ions /cm² and subsequently thermally annealed at 800℃ for 30min. The morphological change of the samples with the increase of implantation dose was investigated using atomic force microscopy (AFM). It was found that oblate-shaped blisters with an average height around 4.0nm were found on the 2.0×10¹⁶ ions /cm² implanted sample surface; spherical-shaped blisters with an average height around 10.0nm were found on the 5.0×10¹⁶ ions /cm² implanted sample surface; strip-shaped and conical cracks were observed on the sample He-implanted to a dose of 1.0×10¹⁷ ions /cm². Exfoliations occurred on the sample surface to a dose of 2.0×10¹⁷ ions /cm². Mechanisms underlying the surface change were discussed.     

He离子辐照6H-SiC引入缺陷的光谱研究

实验采用300 keV的He²⁺辐照6H-SiC,辐照温度分别为室温,450,600和750 ℃,辐照剂量范围为1×10¹⁵–1×10¹⁷ cm^-2,辐照完成后对样品进行拉曼散射和紫外可见透射光谱测试与研究. 这两种分析方法的实验结果表明,He离子辐照产生的缺陷以及缺陷的恢复与辐照剂量和辐照温度有着直接关系. 室温下辐照会使晶体出现非晶化,体现在拉曼特征峰消失,相对拉曼强度达到饱和(同时出现了较强的Si-Si峰);高温下辐照伴随着晶体缺陷的恢复过程,当氦泡未存在时,高温辐照很容易导致Frenkel对、缺陷团簇等缺陷恢复,当氦泡存在时,氦泡会抑制缺陷恢复,体现在相对拉曼强度和相对吸收系数曲线斜率的变化趋势上. 本文重点讨论了高温辐照情况下氦泡对缺陷聚集与恢复的影响,并与高温下硅离子辐照碳化硅结果进行了对比. 关键词： 6H-SiC 氦泡 拉曼散射光谱 紫外可见透射光谱