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Water purification is required for environmental protection. In this paper, we propose and demonstrate a rapid, effective and low-cost approach to collect numerous impurities(microparticles) in water on the basis of laser-induced thermal convection. We introduce a heat source by using a fiber tip, which is fabricated into a non-adiabatic-tapered shape. In order to improve the laser power absorption efficiency, we coat a gold film with a thickness of 300 nm on the fiber tip. Due to absorption, the laser power transferred from the fiber to the water results in thermal convection. The forces generated from the thermal convection drive the microparticles to move towards the fiber tip, thereby performing microparticle collection and achieving water purification. Laser-induced thermal convection provides a simple, high-efficiency and low-cost method of collecting microparticles, which is a suitable and convenient for local water purification. 相似文献
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采用H2,He混合气体稀释等离子辅助反应热化学气相沉积法生长微晶硅锗薄膜,并在生长过程中对等离子体进行光发射光谱在线监测.结果表明:混合气体稀释法可以有效提高等离子体中的原子氢数目,降低等离子体中的电子温度;用XRD和光暗电导率表征样品的微结构和光电特性时发现,通过优化混合稀释气体中He和H2气体的比例,能够减少薄膜中的缺陷态,促进薄膜<220>择优取向生长,有效改善微晶硅锗薄膜结构,提高光电吸收性能.
关键词:
化学气相沉积
微晶硅锗薄膜
光发射光谱
X射线衍射 相似文献
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The growth rate of diamond has been investigated for a long time and researchers have been attempting to enhance the growth rate of high-quality gem diamond infinitely. However, it has been found according to previous research results that the quality of diamond is debased with the increase of growth rate. Thus, under specific conditions, the growth rate of high-quality diamond cannot exceed a limited value that is called the limited growth rate of diamond. We synthesize a series of type Ib gem diamonds by temperature gradient method under high pressure and high temperature (HPHT) using the as-grown {100} face. The dependence of limited growth rate on growth conditions is studied. The results show that the limited growth rate increases when synthetic temperature decreases, also when growth time is prolonged. 相似文献
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有机半导体材料具有来源丰富、化学结构可裁剪、柔韧性较高、器件制备温度低和塑料衬底兼容性好等优点, 极大地拓展了电子器件的功能与应用. 然而, 电子传输型(n型)有机半导体在分子多样性、载流子迁移率和空气稳定性方面远远落后于空穴传输型(p型)半导体, 从而阻碍了双极晶体管、p-n结和有机互补电路的发展. 酰胺或酰亚胺功能化能显著提高有机材料的电子亲和势, 是构建高性能n型有机半导体的重要策略. 本综述总结了近年来萘二酰亚胺类、苝二酰亚胺类、吡咯并吡咯二酮类、异靛蓝类和其他酰胺/酰亚胺类小分子和聚合物n型有机半导体材料的研究进展, 从分子设计角度出发, 深入讨论了分子结构如何改变分子前线轨道能级、分子间相互作用力、聚集态结构、器件稳定性和电学性能, 最后对其未来的发展方向和面临的挑战进行了展望. 相似文献
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受拉钢筋混凝土构件破坏过程的数值模拟 总被引:1,自引:0,他引:1
采用三维材料破坏过程分析MFPA3D系统,对钢筋混凝土构件轴心受拉条件下的受力、变形与内部裂纹萌生、扩展及最终破坏全过程进行了数值试验研究。数值模型中引入统计分布函数反映了混凝土的非均匀性影响,并采用具有残余强度的弹性损伤本构模型及其破坏单元材料性质退化方法,利用位移加载方式对钢筋混凝土构件实施拉伸加载。通过对钢筋、素混凝土方形体以及钢筋混凝土方形柱体构件在拉伸作用下破坏过程的数值试验,分析了钢筋与混凝土两种材料之间的相互作用、约束机理和破坏机理。数值试验成果对于深入了解钢筋和混凝土的联合受力规律和钢筋在开裂前后对整体钢筋混凝土结构的作用机制有参考价值。 相似文献
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针对不同场景下获得的水下图像存在色偏、细节模糊和对比度低等问题,提出一种基于四叉树分级搜索和透射率优化的水下图像复原方法。首先,建立双透射率水下成像模型,将透射率定义为直接分量透射率和后向散射分量透射率;然后,利用红通道补偿算法对原图像进行预处理,并利用四叉树分级搜索、改进暗通道先验和无退化像素点方法分别估计背景光强度、后向散射分量透射率和直接分量透射率;最后,通过逆求解成像模型,并采用满足瑞利分布的直方图拉伸获得复原图像。实验结果表明,与其他水下图像复原方法相比,所提方法对在强干扰环境下采集的水下图像有着更强的颜色失真校正以及模糊信息增强的能力。 相似文献
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