色散效应对GaAs太阳电池双层减反射膜的影响

考虑双层减反射膜材料的折射率色散效应，采用光学干涉矩阵法计算了SiO2／ZnSe和SiO2／ZnS两种GaAs太阳电池双层减反射膜的反射率与波长的函数曲线，以及加权平均反射率随着顶层减反射膜SiO2厚度变化的函数曲线，并与未考虑色散效应的情况进行了对比．计算结果表明，色散效应对双层减反射膜的反射率有较大的影响，特别是对300-500nm波长范围的影响更大，且对不同材料的减反射膜的影响也是不同的．与未考虑色散效应的情况相比，考虑色散效应后，SiO2／ZnSe双层减反射膜的最小加权平均反射率从1．14％增加到1．55％，而SiO2／ZnS双层减反射膜的最小加权平均反射率却从1．49％减小到1.46％．

半导体低维结构的压力光谱研究

研究了一些半导体低维结构的压力光谱.测得平均直径为26、52和62nm的In0.55Al0.45As/Al0.5Ga0.5As量子点发光峰的压力系数分别为82、94和98 meV/GPa.表明这些发光峰具有Γ谷的特性,这些量子点为Ⅰ型量子点.而平均直径为7nm的量子点发光峰的压力系数为-17 meV/GPa,具有X谷的特性.所以这种小量子点为Ⅱ型量子点.测得ZnS:Mn纳米粒子中Mn发光峰的压力系数为-34.6meV/GPa,与晶体场理论的预计一致.而DA对发光峰基本不随压力变化,表明它应该与ZnS基体中的表面缺陷有关.测得ZnS:Cu纳米粒子中Cu的发光峰的压力系数为63.2meV/GPa,与ZnS体材料的带隙压力系数相同.表明Cu引入的受主能级具有浅受主的某些特点.测得ZnS:Eu纳米粒子中Eu发光峰的压力系数为24.1meV/GPa,与晶体场理论的预计不同.可能和Eu的激发态与ZnS导带间的相互作用有关.

Pressure behavior of Te isoelectronic centers in S-rich ZnS1-xTex alloy

The photoluminescence from ZnS1-xTex alloy with 0 < x < 0.3 was investigated under hydrostatic pressure up to 7 GPa. Two peaks were observed in the alloys with x < 0.01, which are related to excitons bound to isolated Te isoelectronic impurities (Te-1 centers) and Te pairs (Te-2 centers), respectively. Only the Te-2 related emissions were observed in the alloys with 0.01 < x < 0.03. The emissions in the alloys with 0.03 < x < 0.3 are attributed to the excitons bound to the Te-n (n greater than or equal to 3) cluster centers. The pressure coefficient of the Te-1 related peak is 89(4) meV/GPa, about 40% larger than that of the band gap of ZnS. On the other hand, the pressure coefficient of the Te-2 related emissions is only 52(4) meV/GPa, about 15% smaller than that of the ZnS band gap. A simple Koster-Slater model has been used to explain the different pressure behavior of the Te-1 and Te-2 centers. The pressure coefficient of the Te-3 centers is 62(2) meV/GPa. Then the pressure coefficients of the Te-n centers decrease rapidly with further increasing Te composition.

Anisotropic strain in (100) ZnSe epilayers grown on lattice mismatched substrates

We show that part of the reflectance difference resonance near the E-0 energy of ZnSe is due to the anisotropic in-plane strain in the ZnSe thin films, as films grown on three distinctly different substrates, GaAs, GaP, and ZnS, all show the resonance at the same energy. Such anisotropic strain induced resonance is predicted and also observed near the E-1/E-1+Delta(1) energies in ZnSe grown on GaAs. The theory also predicts that there should be no resonance due to strain at, the E-0+Delta(0) energy, which is consistent with experiments. The strain anisotropy is rather independent of the ZnSe layer thickness, or whether the film is strain relaxed. For ZnSe films with large lattice mismatch with substrates, the resonance at the E-1/E-1+Delta(1) energies is absent, very likely due to the poor crystalline quality of the 20 nm or so surface layer. (C) 2000 American Vacuum Society. [S0734-211X(00)05604-3].

Pressure behavior of deep centers in ZnSxTe1-x alloys

We have measured photoluminescence of ZnSxTe1-x alloys (x > 0.7) at 300 K and under hydrostatic pressure up to 7 GPa. The spectra contain only a broad emission band under excitation of the 406.7 nm line. Its pressure coefficients are 47, 62 and 45 meV/GPa for x = 0.98, 0.92 and 0.79 samples, which are about 26%, 7% and 38% smaller than that of the band gap in the corresponding alloys. The Stokes shifts between emission and absorption of the bands were calculated by fitting the pressure dependence of the emission intensity, being 0.29, 0.48 and 0.13 eV for the three samples, respectively. The small pressure coefficient and large Stokes shift indicate that the emission band observed in our samples may correspond to the Te isoelectronic center in the ZnSxTe1-x alloy.

Uniform YVO4:Ln(3+) (Ln = Eu, Dy, and Sm) nanocrystals: Solvothermal synthesis and luminescence properties

Well-dispersed YVO4:Ln(3+) (Ln = Eu, Dy, and Sm) nanocrystals with uniform morphology and size have been synthesized via a facile solvothermal route. XRD results demonstrate that all of the three samples can be well indexed to the pure tetragonal phase Of YVO4, indicating that the Eu3+, Dy3+, and Sm3+ have been effectively doped into the host lattices of YVO4. TEM images show that the YVO4 nanocrystals exhibit ellipsoid shape and a mean size of about 20 nm, which is in good agreement with the estimation of XRD results.

Langmuir-Blodgett film formation from surfactant-capped zinc sulfide nanoparticles spread on water surface

The surfactant-capped ZnS nanoparticulate multilayer film has been fabricated by Langmuir-Blodgett(LB) technique. ZnS LB firm was investigated by the small-angle x-ray diffraction(XRD), atomic force microscopy(AFM) and transmission electron microscopy(TEM). The results indicate that ZnS nanoparticulate LB film is one-dimensional superlattice.

柠檬酸-凝胶法合成ZnGa_2O_4:Mn~(2+)/Eu~(3+)及其发光性能的研究

ZnGa_2O_4是具有尖晶石结构的复合氧化物,是一种重要的阴极射线发光材料。同时由于它的光透明性和金属导电性,它又可以用作液晶显示和太阳能电池的透明电极。ZnGa_2O_4的能隙大约为4.4ev,作为一种低电压发光材料,它有可能取代以ZnS为基础的低电压阴极射线发光粉而用于新型的真空平板阴极射线管中。文献[1-2]中报导的ZnGa_2O_4以及激活离子掺杂的ZnGa_2O_4大部分由传统的固相法

地幔副矿物和硫化物的热（PVT）状态方程研究

矿物PVT状态方程是研究矿物在一定温压条件下的晶胞体积与温度、压力之间的关系，依据这个基本关系，可以了解矿物在高温高压下的密度、弹性、热膨胀等性质。矿物PVT状态方程的研究可以了解矿物在地球深部存在的结构状态，为进一步的理论计算提供基础的数据，其结果也可以与天然和人工地震的地震波反演的结果对比，对地球深部的地质作用过程、物质结构状态和组成进行限制。然而，目前矿物PVT状态方程的研究主要集中在氧化物矿物和上地幔主要矿物（橄榄石和辉石）及其高压相（瓦兹利石、林伍德石、方镁铁矿、Majorite、Mg-Perovskite、Ca-Perovskite）的研究上，对石榴石、尖晶石等地幔常见副矿物和硫化物矿物的PVT状态方程的研究很少。 作者在参与搭建并完善金刚石压腔外加温系统的基础上，利用北京同步辐射X射线衍射实验技术结合金刚石压腔外加温技术对天然铁铝榴石、锰铝榴石、铬尖晶石进行了PVT状态方程的研究，同时对闪锌矿、辰砂、方铅矿、辉钼矿、辉锑矿等硫化物矿物进行了相变及状态方程的研究。结合前人研究成果，讨论了类质同象置换对镁铝－铁铝系列石榴石、锰铝－铁铝系列石榴石、尖晶石和硫化物矿物相变及状态方程的影响。获得了以下研究结果： 1）镁铝－铁铝系列石榴石和锰铝－铁铝系列石榴石的体弹模量都随着铁铝榴石组分的增加而增大。其主要原因是在二价阳离子位置上Fe2+取代了Mg2+、Mn2+。在镁铝－铁铝榴石系列中Mg2+的共价键半径（1.36Å）要大于Fe2+的共价键半径（1.17Å），而Mg2+－O键长（2.270Å）与铁铝榴石中的Fe2+－O（2.299Å）键长基本相当。在锰铝－铁铝榴石系列中， 尽管Mn2+的共价键半径（1.17Å）与铁铝榴石中的Fe2+共价键半径（1.17Å）相等，但是Mn2+－O键长（2.326Å）大于Fe2+－O键长（2.299Å）。较小的键长和共价键半径将会增强离子间的结合力，从而具有较强的抗压缩能力，因此随铁铝榴石组分的增加，镁铝－铁铝榴石系列和锰铝－铁铝榴石系列具有较大的体弹模量。 2）首次获得了铬尖晶石（(Mg0.6766Fe0.2808Na0.0073Ti0.0014)0.9661(Cr1.4874Al0.5367)2.0241O4）的体弹模量的温度导数。结合前人关于其他组分尖晶石的实验结果发现，尖晶石中在四面体位置上发生Fe2+－Mg2+置换对体弹模量的影响要大于在八面体位置上发生Cr3+－Al3+置换对体弹模量的影响。而造成铬尖晶石的体弹模量值比其他组分尖晶石的体弹模量值大的主要原因也是四面体位置上的Fe2+－Mg2+的类质置换。 3）依据获得的尖晶石和石榴石的状态方程计算了不同地幔岩模型（橄榄岩和榴辉岩模型）的密度值在上地幔温压条件下的变化情况。结果表明，在尖晶石二辉橄榄岩模型中尖晶石含量的改变（2％－10％）会引起较大的密度变化（2.2％）；在石榴石二辉橄榄岩（石榴石含量14％－20％）和榴辉岩（石榴石含量37％－45％）模型中石榴石含量的变化几乎未引起其密度值的变化，但石榴石是这两种地幔岩模型中的重要组成矿物。 4）首次获得了辰砂的Cinnabar相、方铅矿的B33相、辉钼矿、辉锑矿体弹模量的温度导数和热膨胀系数。讨论了闪锌矿、辰砂、方铅矿的相变情况。 5）总结了锌的、汞的、铅的硫族化合物发生结构相变的规律。认为造成锌的、汞的、铅的硫族化合物的相变压力随阴离子原子序数的增加（S→Se→Te）而逐渐减小的原因是：元素周期表中相对较大原子序数的原子具有更多的核内电子，引起价电子及导带电子的有效位能相对变弱，引起电离能降低，因此在相对较低的压力下就容易发生结构相变。 6）分析了ZnS中Fe2+替代Zn2+、Sb2S3－Bi2S3、MoS2－WS2以及同族相同结构不同组分的简单硫化物矿物的阴、阳离子对体弹模量值的影响。认为简单硫化物矿物的体弹模量值取决于阴、阳离子的离子半径、电负性以及键长。

Sonochemical synthesis and measurement of optical properties of zinc sulfide quantum dots

A facile sonochemical method has been developed to prepare very small zinc sulfide nanoparticles (ZnS NPs) of extremely small size about 1. nm in diameter using a set of ionic liquids based on the bis (trifluoromethylsulfonyl) imide anion and different cations of 1-alkyl-3-methyl-imidazolium. The structural features and optical properties of the NPs were determined in depth with X-ray powder diffraction (XRD), transmission electron microscopy (TEM), high-resolution TEM (HRTEM), Fourier transform infrared (FTIR) spectroscopy, dynamic light scattering (DLS) analysis, and UV-vis absorption spectroscopy. The energy band gap measurements of ZnS NPs were calculated by UV-vis absorption spectroscopy. One of the interesting features of the present work is that the wide band gap semiconductor ZnS nanocrystals were prepared which are used in the fabrication of photonic devices.

Factors affecting the photoelectrochemical fixation of carbon dioxide with semiconductor colloids

Carbon dioxide was reduced photocatalytically using aqueous CdS or ZnS colloids containing tetramethylammonium chloride to give the dimeric and tetrameric products namely, oxalate, glyoxylate, glycolate and tartrate. A model is presented to explain the role of the tetramethylammonium ions. Studies were also performed using ZnO, SiC, BaTiO₃ and Sr TiO₃, which in the absence of tetramethylammonium ions produced formate and formaldehyde. The relative quantum efficiencies of the six semiconductors were related to their band gaps and conduction band potentials. The role and effectiveness of several 'hole acceptor' (electron donor) compounds in this process is shown to be related to their redox potentials.

Photoreduction of carbon dioxide on zinc sulfide to give four-carbon and two-carbon acids

Aqueous solutions of CO₂ containing tetramethylammonium chloride were photolysed with visible light in the presence of colloidal ZnS to yield tartaric acid, glyoxylic acid, oxalic acid, formic acid and formaldehyde.

Performance of polarisation functionals for linear and nonlinear optical properties of bulk zinc chalcogenides ZnX (X=S,Se,Te).

We calculated the frequency dependent macroscopic dielectric function and second-harmonic generation of cubic ZnS, ZnSe and ZnTe within time-dependent density-polarisation functional theory. The macroscopic dielectric function is calculated in a linear response framework, and second-harmonic generation in a real-time framework. The macroscopic exchange–correlation electric field that enters the time-dependent Kohn–Sham equations and accounts for long range correlation is approximated as a simple polarisation functional αP, where P is the macroscopic polarisation. Expressions for α are taken from the recent literature. The performance of the resulting approximations for the exchange–correlation electric field is analysed by comparing the theoretical spectra with experimental results and results obtained at the levels of the independent particle approximation and the random-phase approximation. For the dielectric function we also compare with state-of-the art calculations at the level of the Bethe–Salpeter equation.

Métodos químicos de modificação superficial de nanomateriais

O objectivo geral desta tese foi investigar diversas estratégias de síntese de nanocompósitos híbridos de matriz polimérica, contendo nanopartículas inorgânicas com funcionalidades diversas. O interesse nestes nanocompósitos multifuncionais consiste no enorme potencial que apresentam para novas aplicações tecnológicas, tais como em optoelectrónica ou em medicina. No capítulo introdutório, apresenta-se uma revisão das propriedades de nanopartículas inorgânicas e nanoestruturas obtidas a partir destas, métodos de preparação e de modificação química superficial, incluindo a formação de nanocompósitos poliméricos, bem como a aplicação destas nanoestruturas em medicina e biologia. O estudo das propriedades de nanopartículas de ouro é um importante tema em Nanociência e Nanotecnologia. As propriedades singulares destas NPs apresentam uma estreita relação com o tamanho, morfologia, arranjo espacial e propriedades dieléctricas do meio circundante. No capítulo 2, é reportada a preparação de nanocompósitos utilizando miniemulsões de poli-estireno (PS) e poli-acrilato de butilo (PBA) contendo nanopartículas de ouro revestidas com moléculas orgânicas. As propriedades ópticas destas estruturas híbridas são dominadas por efeitos plasmónicos e dependem de uma forma crítica na morfologia final dos nanocompósitos. Em particular, demonstra-se aqui a possibilidade de ajustar a resposta óptica, na região do visível do espectro, através do arranjo das nanopartículas na matriz polimérica, e consequentemente o acoplamento plasmónico, utilizando nanopartículas resultantes da mesma síntese. Na generalidade, é reportada aqui uma estratégia alternativa para modificar a resposta óptica de nanocompósitos, através do controlo da morfologia do compósito final face à estratégia mais comum que envolve o controlo das características morfológicas das partículas metálicas utilizadas como materiais de partida. No Capítulo 3 apresentam-se os resultados da preparação de vários compósitos poliméricos com propriedades magnéticas de interesse prático. Em particular discute-se a síntese e propriedades magnéticas de nanopartículas de ligas metálicas de cobalto-platina (CoPt3) e ferro-platina (FePt3), assim como de óxidos de ferro (magnetite Fe3O4 e maguemite g-Fe2O3) e respectivos nanocompósitos poliméricos. A estratégia aqui descrita constitui uma via interessante de desenvolver materiais nanocompósitos com potencial aplicação em ensaios de análise de entidades biológicas in vitro, que pode ser estendido a outros materiais magnéticos. Como prova de conceito, demonstrase a bioconjugação de nanocompósitos de CoPt3/PtBA com anticorpos IgG de bovino. No capítulo 4 é descrita a preparação e propriedades ópticas de pontos quânticos (“quantum dots”, QDs) de CdSe/ZnS assim como dos seus materiais nanocompósitos poliméricos, CdSe/ZnS-PBA. Como resultado das suas propriedades ópticas singulares, os QDs têm sido extensivamente investigados como materiais inorgânicos para aplicações em dispositivos ópticos. A incorporação de QDs em matrizes poliméricas é de particular interesse, nomeadamente devido ao comportamento óptico do nanocompósito final parecer estar dependente do tipo de polímero utilizado. As propriedades ópticas dos nanocompósitos foram estudadas sistematicamente por medidas de fotoluminescência. Os nanocompósitos apresentam propriedades interessantes para potenciais aplicações biológicas em diagnóstico in vitro, funcionando como sondas biológicas luminescentes.

Bio-synthesis of nanosized semiconductors using mine wastes as material sources

This work describes the synthesis of nanosized metal sulfides and respective SiO2 and/or TiO2 composites in high yield via a straightforward process, under ambient conditions (temperature and pressure), by adding to aqueous metals a nutrient solution containing biologically generated sulfide from sulfate-reducing bacteria (SRB). The nanoparticles‘ (NPs) morphological properties were shown not to be markedly altered by the SRB growth media composition neither by the presence of bacterial cells. We further extended the work carried out, using the effluent of a bioremediation system previously established. The process results in the synthesis of added value products obtained from metal rich effluents, such as Acid Mine Drainage (AMD), when associated with the bioremediation process. Precipitation of metals using sulfide allows for the possibility of selective recovery, as different metal sulfides possess different solubilities. We have evaluated the selective precipitation of CuS, ZnS and FeS as nanosized metal sulfides. Again, we have also tested the precipitation of these metal sulfides in the presence of support structures, such as SiO2. Studies were carried out using both artificial and real solutions in a continuous bioremediation system. We found that this method allowed for a highly selective precipitation of copper and a lower selectivity in the precipitation of zinc and iron, though all metals were efficiently removed (>93% removal). This research has also demonstrated the potential of ZnS-TiO2 nanocomposites as catalysts in the photodegradation of organic pollutants using the cationic dye, Safranin-T, as a model contaminant. The influence of the catalyst amount, initial pH and dye concentration were also evaluated. Finally, the efficiency of the precipitates as catalysts in sunlight mediated photodegradation was investigated, using different volumes of dye-contaminated water (150 mL and 10 L). This work demonstrates that all tested composites have the potential to be used as photocatalysts for the degradation of Safranin-T.