Optical absorption tunability and local electric field distribution of gold-dielectric-silver three-layered cylindrical nanotube

The effects of inner nanowire radius, shell thickness, the dielectric functions of middle layer and surrounding medium on localized surface plasmon resonance (LSPR) of gold-dielectric-silver nanotube are studied based on the quasi-static approximation. Theoretical calculation results show that LSPR of gold-dielectric-silver nanotube and LSPR numbers can be well optimized by adjusting its geometrical parameters. The longer wavelength of $\left|\omega_{-}^{-}\right\rangle$ mode takes place a distinct red-shift with increasing the inner nanowire radius and the thickness of middle dielectric layer, while a blue-shift with increasing outer nanotube thickness. The physical mechanisms are explained based on the plasmon hybridization theory, induced charges and phase retardation. In addition, the effects of middle dielectric function and surrounding medium on LSPR, and the local electric field factor are also reported. Our study provides the potential applications of gold-dielectric-silver nanotube in biological tissues, sensor and related regions.     

化学气相沉积单层VIB族过渡金属硫化物的研究进展

2004年以来,石墨烯因其优异的光学、电学性质而被广泛地研究,但由于其零带隙的特性极大地限制了它的应用前景.单层的VIB族过渡金属硫化物(TMDs)拥有类似石墨烯的晶体结构及可控的能带结构,是一类理想的二维直接带隙半导体材料,不仅可用于探索如谷极化等一些基础和前沿的物理问题,也可以广泛应用于纳米器件、光电子学和光催化的研究.近年来,化学气相沉积(CVD)技术作为一种相较于传统化学合成或物理剥离更加有效的制备方法被引入此类材料的生长,能够合成出拥有大面积连续的、厚薄均匀和较高晶体质量的单层TMDs.基于此,重点介绍了利用CVD技术生长单层TMDs所取得的进展,讨论了各工艺条件(如反应温度、载流气体、衬底、前驱物与衬底之间的距离等)对单层TMDs的生长及性质的影响.最后,探讨了利用CVD技术实现调控单层TMDs的尺寸、覆盖度和层厚均匀性的途径和方法.     

SiCl4浓度对微晶硅薄膜生长及光电特性的影响

研究了SiCl4浓度对等离子体增强化学气相沉积(PECVD)系统中以SiCl4/H2为反应气体的微晶硅薄膜生长及光电特性的影响.结果表明,微晶硅薄膜的沉积速率和晶化率均随SiCl4浓度的增加而增大,而晶粒平均尺寸在SiCl4浓度小于65;时呈增大趋势,在SiCl4浓度大于65;时呈减小趋势;此外,光照实验表明制备的微晶硅薄膜具有较稳定的微观结构,具有类稳恒光电导效应,且样品的电导率依赖于SiCl4浓度的变化.此外,还讨论了Cl基基团在微晶硅薄膜生长过程中所起的作用.