GaN hexagonal pyramids formed by a photo-assisted chemical etching method

A series of experiments were conducted to systematically study the effects of etching conditions on GaN by a con-venient photo-assisted chemical （PAC） etching method. The solution concentration has an evident influence on the surface morphology of GaN and the optimal solution concentrations for GaN hexagonal pyramids have been identified. GaN with hexagonal pyramids have higher crystal quality and tensile strain relaxation compared with as-grown GaN. A detailed anal- ysis about evolution of the size, density and optical property of GaN hexagonal pyramids is described as a function of light intensity. The intensity of photoluminescence spectra of GaN etched with hexagonal pyramids significantly increases compared to that of as-grown GaN due to multiple scattering events, high quality GaN with pyramids and the Bragg effect.     

中红外区二氧化钛反蛋白石光子晶体的光子定域化研究

为了得到二氧化钛反蛋白石光子晶体中影响光子定域化的规律,基于Mie散射理论和低浓度近似,对光子定域化参量进行了数值计算与理论分析,发现在该氧化物的剩余射线区内,入射波长和散射体大小对光子定域化有明显的影响.结果表明,在散射体浓度为10%,相对折射率大于3.8时,在中红外区13.3～15.3 μm范围内出现了光子定域化现...     

高分子支载手性催化剂在Michael反应中的研究进展

高分子手性催化剂用于不对称有机合成,它易与产物分离、可通过适当的处理后回收重复使用;具有毒性或气味的手性催化剂支载在高分子上后,使用更加安全和方便;而且,适当结构的高分子聚合物可以为不对称反应提供更有利的微环境,提高立体选择性.正是这些优点,高分子手性催化剂的研究越来越受到人们的关注.不对称Michael反应是形成手性碳-碳、碳-杂键的重要反应,在有机合成和药物合成中起着重要的作用.本文综述了近年来的高分子手性催化剂在Michael反应中的应用及最新进展.     

α-溴-4-甲磺酰基苯乙酮的合成

以茴香硫醚为原料,经Friedel-Crafts、溴化和氧化3步反应合成了目标化合物,反应总收率在82％以上,中间体和产物的结构经IR,^1H NMR确证。     

Synthesis of flower-shape clustering GaN nanorods by ammoniating Ga2O3 films

Flower-shape clustering GaN nanorods are successfully synthesized on Si（111） substrates through ammoniating Ga2O3/ZnO films at 950℃. The as-grown products are characterized by x-ray diffraction （XRD）, scanning electron microscope （SEM）, field-emission transmission electron microscope （FETEM）, Fourier transform infrared spectrum （FTIR） and fluorescence spectrophotometer. The SEM images demonstrate that the products consist of flower-shape clustering GaN nanorods. The XRD indicates that the reflections of the samples can be indexed to the hexagonal GaN phase and HRTEM shows that the nanorods are of pure hexagonal GaN single crystal. The photoluminescence （PL） spectrum indicates that the GaN nanorods have a good emission property. The growth mechanism is also briefly discussed.     

基于Mie散射理论的MgF_2颗粒散射特性研究

本文应用Mie散射理论对微球体颗粒光散射的性质进行了理论分析与数值计算,得到了吸收截面与波长,散射强度与散射角以及散射强度与参数x的关系。结果表明,入射波长在300~4800 nm,粒子的吸收截面都为零;当λ>4800 nm,吸收截面随着粒子半径的增大而增大。     

复合金属粒子散射强度分布的计算与分析

根据Mie散射理论,对金银复合粒子的散射强度和偏振度进行了数值计算与理论分析,得到了散射强度、偏振度与散射角、入射波长及核壳大小之间的关系.结果表明,入射波长越大,前向散射越强,易出现线偏振光；而核壳半径越大,背向散射越弱,易出现退偏振现象.该结论对金银复合材料光学特性方面的开发和应用提供理论参考.