LiNbO_3/SiO_2/Si薄膜的蓝光发射

采用射频磁控溅射方法制备了LiNbO3/SiO2／Si薄膜。通过X射线衍射（XRD）、电感耦合等离子体质谱（ICP-MS）和傅立叶变换红外吸收光谱（FT-IR）对薄膜的物相、晶体取向和成分进行了表征。采用荧光分光光度计研究了LiNbO3／SiO2／Si薄膜的光致发光。研究结果表明：在280nm激发光的激发下,LiNbO3／SiO2／Si薄膜在室温下发射470nm的蓝光,来源于LiNbO3薄膜与SiO2层界面处白捕获激子的辐射复合,发现在SiO2／Si薄膜上生长LiNbO3薄膜调制SiO2／Si薄膜的发光机制。     

GROWTH MODEL OF TEXTURED DIAMOND (111) FILM IN CH4/O2/H2 ATMOSPHERE

Partially oriented and highly textured diamond films on Si( 111 ) substrates were achieved by hot-filament chemical vapor deposition(HFCVD). High nucleation density greater than 5×10⁸cm^-2 was realiged in 3 min by near-surface glow discharge. The os-grown films were characterized by scanning electron microscopy(SEM), X-ray diffraction(XRD) and Raman spectroscopy. It was found that by adding a small amount of oxygen to the mixture of CH₄/H₂, the appearance of facet(111) was well controlled, and the secondary nucleation on the facet(111) was suppressed greatly. Growth feature of homoepitaxy on diamond (111) surface was demonstrated to be in Stranski-Krastanov model by SEM.     

GROWTH MODEL OF TEXTURED DIAMOND (111) FILM IN CH4/O2/H2 ATMOSPHERE

Partially oriented and highly textured diamond films on Si( 111 ) substrates were achieved by hot-filament chemical vapor deposition(HFCVD). High nucleation density greater than 5×10⁸cm^-2 was realiged in 3 min by near-surface glow discharge. The os-grown films were characterized by scanning electron microscopy(SEM), X-ray diffraction(XRD) and Raman spectroscopy. It was found that by adding a small amount of oxygen to the mixture of CH₄/H₂, the appearance of facet(111) was well controlled, and the secondary nucleation on the facet(111) was suppressed greatly. Growth feature of homoepitaxy on diamond (111) surface was demonstrated to be in Stranski-Krastanov model by SEM.     

SiC纳米晶/非晶复合纳米纤维的制备和场发射性能研究

采用阵列碳纳米管作为模板制备出了SiC纳米晶/非晶复合纳米纤维(以下称SiC纳米纤维),并对其晶体结构、形貌和精细结构使用X射线衍射仪(XRD)、扫描电子显微镜(SEM)和高分辨透射电子显微镜(HR-TEM)进行了表征.比较了SiC纳米纤维和碳纳米管模板的场发射性能,研究了SiC纳米纤维直径的变化对其绝对场增强因子的影响.结果表明:SiC纳米晶/非晶复合纳米纤维具有特殊的"树状"结构,顶端及"树枝"中分布着大量的SiC纳米晶粒.SiC纳米晶粒以及特殊的分支结构增强了SiC纳米纤维的场发射性能,开启场强低至1.1 V/μm,仅为相同直径碳纳米管模板的1/2.随着SiC纳米纤维直径的减小,绝对场增强因子β0呈明显增大趋势.     

基于发光机理提高掺铒硅基材料发光效率的几条途径

掺铒硅基发光材料可以用于制备光通信用光源、光纤放大器，更重要的是可能成为实现硅基光电子集成技术的重要途径，已成为研究的热点之一．文章讨论了掺铒硅及掺铒硅基材料的发光机理，指出了制约实用化方面存在的问题．从不同方面着重探讨了共掺氧对提高掺铒硅发光效率的作用．最后介绍了基于掺铒硅发光机理提高掺铒硅基材料发光效率的几种途径、目前存在的主要问题及研究进展．     

Room temperature ferromagnetism of nonmagnetic element Ca-doped LiNbO3 films

The nonmagnetic element Ca-doped LiNbO3 films were prepared on Si （111） substrates by radio frequency （RF） mag- netron sputtering technique. X-ray diffraction （XRD） and X-ray photoelectron spectroscopy （XPS） indicate that the Ca atoms enter the LiNbO_3 lattice in the form of Ca^2＋ ions. Superconducting quantum interference device （SQUID） resuits show that the Ca-doped LiNbO_3 films have room-temperature ferromagnetism and a maximum saturation magnetization of 4800 A/m at the 3% of Ca atom doping concentration. The room temperature ferromagnetism of the Ca-doped LiNbO_3 films can be attributed to the occurrence of vacancies due to Ca doping and is the intrinsic property.     

Color-converted remote phosphor prototype of multiwavelength excitable borosilicate glass for white light-emitting diodes

We report a unique red light-emitting Eu-doped borosilicate glass to convert color for warm white light-emitting diodes. This glass can be excited by from 394 nm-peaked near ultraviolet light, 466 nm-peaked blue light, to 534 nm-peaked green light to emit desired red light with an excellent transmission in the wavelength range of 400-700 nm which makes this glass suitable for the color conversion without great cost of luminous power loss. In particular, assembling this glass to commercial white light-emitting diodes, the tested results show that the color rendering index is improved to 84 with a loss of luminous power by 12 percent at average, making this variety of glass promising for inorganic "remote-phosphor" color conversion.     

PHOTOLUMINESCENCE OF NANOCRYSTALLINE SiC FILMS PREPARED BY RF MAGNETRON SPUTTERING

Amorphous SiC films are deposited on Si (111) substrates by rf magnetron sputtering and then annealed at 1200℃ for different times by a dc self-heating method in a vacuum annealing system. The crystallization of the amorphous SiC is determined by Raman scattering at room temperature and X-ray diffraction. The experimental result indicates that the SiC nanocrystals have formed in the films. The topography of the as-annealed films is characterized by atomic force microscopy. Measurements of photoluminescence of the as-annealed films show blue or violet light emission from the nanocrystalline SiC films and photoluminescence peak shifts to short wavelength side as the annealing time decreases.     

Color-converted remote phosphor prototype of a multiwavelength excitable borosilicate glass for white light-emitting diodes

We report a unique red light-emitting Eu-doped borosilicate glass to convert color for warm white light-emitting diodes. This glass can be excited from 394 nm-peaked near ultraviolet light, 466 nm-peaked blue light, to 534 nm-peaked green light to emit the desired red light with an excellent transmission in the wavelength range of 400-700 nm which makes this glass suitable for color conversion without a great cost of luminous power loss. In particular, when assembling this glass for commercial white light-emitting diodes, the tested results show that the color rendering index is improved to 84 with a loss of luminous power by 12 percent at average, making this variety of glass promising for inorganic "remote-phosphor" color conversion.     

Dominance of Antinodal Quasiparticles on the Transport Properties of Heavily Overdoped High-Tc Cuprates： Infrared-Reflectance Spectra

The infrared reflectance spectrum up to 2500cm^-1 for heavily overdoped T1-2201 at 300 K has been analysed under the semiclassical approximation. In this approach, we use two independent sets of parameters to fit the reflectance： the momentum-dependent Fermi velocity vk and the momentum-dependent scattering rate τ^-1 （εk ）. Unlike the case at optimal doping in which the transport properties are dominated by the nodal quasi-particles （QPs）, both the lifetime and the Fermi velocity of the QPs in the antinodal region near the Fermi surface increase remarkably for the heavily overdoped samples. Our fitting results indicate that the antinodal QPs tend to dominate the transport properties in heavily overdoped high-Tc cuprates.