两种制备多晶铜铟硒薄膜方法的比较

采用真空顺序蒸发铜铟金属预置层后真空硒化退火的方法(硒化法),以及真空三元叠层蒸发后氮气气氛退火的方法(叠层法)分别制备了太阳电池吸收层材料CuInSe2薄膜.通过X射线衍射、扫描电子显微镜、能量色散X射线分析技术等分析手段对薄膜进行了表征.结果表明:两种方法制备的薄膜形貌都比较致密均匀,晶粒直径分别约1.5 μm和约1 μm.组分分析表明所制薄膜均为富铜CIS.硒化法制备的CIS薄膜具有单一的黄铜矿相结构;而叠层法制备的薄膜含有少量杂相,如β-In2Se3等.因此硒化法制备的薄膜更适于作为太阳能吸收层材料.     

硒化温度对Cu(In, Al)Se2薄膜结构和光学性质的影响

采用了磁控溅射制备Cu-In-Al金属前驱体薄膜,后硒化快速退火得到铜铟铝硒(Cu(In,Al)Se2,CIAS)薄膜.研究了硒化温度对CIAS薄膜晶体结构和光学性质的影响.研究发现CIAS薄膜的晶体结构依赖于硒化温度,其禁带宽度随硒化温度升高发生红移.研究结果表明,CIAS薄膜的最佳硒化温度为540℃,其晶体结构为纯黄铜矿结构,禁带宽度为.34 eV,对应太阳电池理论最大效率的吸收层材料禁带宽度     

SnSe薄膜的两步法制备与光电性能研究

采用电子束蒸镀预制层,再对预制层进行硒化的两步法工艺,通过调节硒化温度和退火时间,在玻璃基底上成功制备了SnSe薄膜。利用X射线衍射、拉曼光谱、扫描电子显微镜、紫外可见近红外分光光度计等研究了SnSe薄膜的物相、微观形貌和光学性能。结果表明,在450℃下硒化退火60min可制备出纯相的多晶SnSe薄膜,其带隙为0.93eV。在功率为200mW/cm²的980nm激光照射下,对SnSe薄膜进行了光电响应特性测试,通过曲线模拟得出所制薄膜的响应时间和恢复时间分别为62和80ms。     

磁控溅射金属预置层后硒化法制备CuInSe_2薄膜工艺条件的优化

采用四因素四水平的正交实验法优化了磁控溅射金属预置层后硒化法制备CuInSe2 薄膜的工艺条件 .调节四个较为重要的影响因素 ,即Cu/In比、硒化时间、硒化温度和硒源温度制备得到 16个CuInSe2 样品 .用Hall效应仪对薄膜的电学性能进行了研究 ,并且通过XRD研究了薄膜的结构性能 .得到了制备具有较好电学性能的CuInSe2 薄膜的优化条件为 :Cu/In比 1 133,硒化温度 4 2 0℃ ,硒化时间 2 0min ,硒源温度 2 0 0℃ .在此优化条件下得到的薄膜Hall迁移率可以达到 3 19cm2 /(V·s) ,XRD结果表明薄膜中没有杂相存在 .     

磁控溅射金属预置层后硒化法制备CuInSe2薄膜工艺条件的优化

采用四因素四水平的正交实验法优化了磁控溅射金属预置层后硒化法制备CuInSe2薄膜的工艺条件.调节四个较为重要的影响因素,即Cu/In比、硒化时间、硒化温度和硒源温度制备得到16个CuInSe2样品.用Hall效应仪对薄膜的电学性能进行了研究,并且通过XRD研究了薄膜的结构性能.得到了制备具有较好电学性能的CuInSe2薄膜的优化条件为:Cu/In比1.133,硒化温度420℃,硒化时间20min,硒源温度200℃.在此优化条件下得到的薄膜Hall迁移率可以达到3.19cm2/(V*s),XRD结果表明薄膜中没有杂相存在.     

钛酸锶钡/铋锌铌多层复合薄膜的制备及性能

采用溶胶一凝胶法在Pt/Ti/SiO2/Si衬底上制备了钛酸锶钡/铋锌铌多层复合薄膜样品.研究了不同退火温度下多层复合薄膜的结构、微观形貌及介电性能.结果表明:在退火温度高于700℃时,所得复合薄膜中会出现立方焦绿石结构的铋锌铌和钙钛矿结构的钛酸锶钡.750℃退火处理得到的多层复合薄膜,表面致密,无裂纹,其相对介电常数...     

H_2O_2对溶液法制备a-IGZO薄膜光学特性的影响

基于溶液旋涂法和高压退火工艺制备了a-IGZO薄膜。采用椭圆偏振光谱分析仪以及原子力显微镜研究和分析了H_2O_2对薄膜的表面结构和光学特性的影响。实验结果表明,a-IGZO前驱液中不含H_2O_2的薄膜,退火温度从220℃升高到300℃,薄膜的光学带隙从3.03增加到3.29,而膜表面粗糙层由20.69nm降至4.68nm。在同样的高压退火条件处理下,与前驱液中没加入H_2O_2的薄膜相比,折射率显著增加并明显的降低了薄膜表面粗糙度。退火温度在300℃时,薄膜的光学带隙由3.29eV增大到3.34eV,表面粗糙层由4.68nm减少到2.89nm。因此,H_2O_2可以在相对低温条件下有效降低薄膜内部的有机物残留及微缺陷,形成更加致密的a-IGZO薄膜。证明了利用H_2O_2能够有效降低溶液法制备aIGZO薄膜所需的退火温度。     

金属Ni诱导非晶硅薄膜晶化研究

采用金属镍诱导晶化非晶硅薄膜的方法制备多晶硅薄膜,研究了不同退火温度和退火时间对晶化效果的影响,使用SEM、EDS和XRD分析了薄膜的晶化效果。实验发现,非晶硅薄膜在460℃以下退火不能晶化,在460℃退火30min已全部晶化;随着退火温度升高或退火时间延长,晶化效果变好;退火2h之后晶体生长近乎饱和。     

退火温度对Mn-Co-Ni-O系NTC薄膜阻温特性的影响

采用传统陶瓷工艺制作溅射靶材,通过射频磁控溅射法在Al2O3基片上制备了Mn-Co-Ni-O系NTC薄膜。利用X射线衍射仪(XRD)、原子力显微镜(AFM)对不同退火温度下制备的NTC薄膜的结构和形貌进行表征。经过蒸发电极、内电极图形化、淀积二氧化硅钝化层等工艺,将薄膜制成0805规格NTC热敏电阻器。利用高低温试验箱等测试系统对其性能进行测试,研究了退火温度对薄膜阻温特性的影响。结果表明,随着退火温度的升高,晶粒逐渐长大,当退火温度为950℃时,晶粒大小均匀,成相平整致密;材料常数B随着退火温度的升高而增大。     

磁控溅射YSZ薄膜的激光损伤阈值

利用射频磁控溅射方法在不同衬底上制备出掺Y2O3 8 %的YSZ薄膜, 用X射线衍射、原子力显微镜(AFM)、扫描电子显微镜和透射光谱测定薄膜的结构、表面特性和光学性能, 研究了退火对薄膜结构和光学性能的影响。结果表明：随着退火温度的升高, 薄膜结构依次从非晶到四方相再到四方和单斜混合相转变, AFM分析显示薄膜表面YSZ颗粒随退火温度升高逐渐增大, 表面粗糙度相应增大, 晶粒大小计算表明, 退火温度的提高有助于薄膜的结晶化, 退火温度从400 ℃到1100 ℃变化范围内晶粒大小从20.9 nm增大到42.8 nm; 同时根据ISO11254-1激光损伤测试标准对光学破坏阈值进行了测量, 发现与其他电子束方法制备的YSZ薄膜损伤阈值结果比较, 溅射法制备的薄膜损伤阈值有了一定程度的提高。     

Development of the readout system for waveguide multilayer optical card

Waveguide multilayer optical card （WMOC） is a novel storage device of three-dimensional optical information. An advanced readout system fitting for the WMOC is introduced in this paper. The hardware mainly consists of the light source for reading, WMOC, motorized stages addressing unit, microscope imaging unit, CCD detecting unit and PC controlling ＆ processing unit. The movement of the precision motorized stage is controlled by the computer through Visual Basic （VB） language in software. A control panel is also designed to get the layer address and the page address through which the position of the motorized stages can be changed. The WMOC readout system is easy to manage and the readout result is directly displayed on computer monitor.     

Nanoimprint Lithography -A Next Generation High Volume Lithography Technique

IntroductionNanoimprint Lithography is a well-acknowl-edged low cost, high resolution, large area pattern-ing process. It includes the most promising methods,high-pressure hot embossing lithography (HEL) [2],UV-cured imprinting (UV-NIL) [3] and micro contactprinting (m-CP, MCP) [4]. Curing of the imprintedstructures is either done by subsequent UV-lightexposure in the case of UV-NIL or by cooling downbelow the glass transition temperature of the ther-moplastic material in case of HEL…     

Collinear phase-matching study of terahertz-wave generation via difference frequency mixed in GaAs and Inp

The collinearly phase-matching condition of terahertz-wave generation via difference frequency mixed in GaAs and InP is theoretically studied. In collinear phase-matching, the optimum phase-matching wave hands of these two crystals are calculated. The optimum phase-matching wave bands in GaAs and lnP are 0.95-1.38μm and 0.7-0.96μm respectively. The influence of the wavelength choice of the pump wave on the coherent length in THz-wave tuning is also discussed. The influence of the temperature alteration on the phase-matching and the temperature tuning properties in GaAs crystal are calculated and analyzed. It can serve for the following experiments as a theoretical evidence and a reference as well.     

Effects of the alloy compositions on the phonon-polaritons in ternary mixed crystals

Composition dependence of bulk and surface phonon-polaritons in ternary mixed crystals are studied in the framework of the modified random-element-isodisplacement model and the Bom-Huang approximation. The numerical results for Several Ⅱ - Ⅵ and Ⅲ- Ⅴ compound systems are performed, and the polariton frequencies as functions of the compositions for ternary mixed crystals AlxGa1-xAs, GaPxAS1-x, ZnSxSe1-x, GaAsxSb1-x, GaxIn1-xP, and ZnxCd1-xS as examples are given and discussed. The results show that the dependence of the energies of two branches of bulk phonon-polaritons which have phonon-like characteristics, and surface phonon-polaritons on the compositions of ternary mixed crystals are nonlinear and different from those of the corresponding binary systems.     

Influence of PVK ： NPB hole transporting layer on the characteristics of organic light-emitting devices

A doping system consisting of NPB and PVK is employed as a composite hole transporting layer （CHTL）. By adjusting the component ratio of the doping system, a series of devices with different concentration proportion of PVK ： NPB are constracted. The result shows that doping concentration of NPB enhances the competence of hole transporting ability, and modifies the recombination region of charge as well as affects the surface morphology of doped film. Optimum device with a maximum brightness of 7852 cd/m^2 and a power efficiency of 1.75 lm/W has been obtained by choosing a concentration proportion of PVK ： NPB at 1：3.     

New insert layer structure OLEDs

An insert layer structure organic electroluminescent device（OLED） based on a new luminescent material （Zn（salen）） is fabricated. The configuration of the device is ITO/CuPc/NPD/Zn（salen）/Liq/LiF/A1/CuPc/NPD/Zn（salen）/Liq/LiF/A1. Effective insert electrode layers comprising LiF（1nm）/Al（5 nm） are used as a single semitransparent mirror, and bilayer cathode LiF（1 nm）/A1（100 nm） is used as a reflecting mirror. The two mirrors form a Fabry-Perot microcavity and two emissive units. The maximum brightness and luminous efficiency reach 674 cd/m^2 and 2.652 cd/A, respectively, which are 2.1 and 3.7 times higher than the conventional device, respectively. The superior brightness and luminous efficiency over conventional single-unit devices are attributed to microcavity effect.     

Analysis of error performance on Turbo coded FDPIM

Due to variable symbol length of digital pulse interval modulation（DPIM）, it is difficult to analyze the error performances of Turbo coded DPIM. To solve this problem, a fixed-length digital pulse interval modulation（FDPIM） method is provided. The FDPIM modulation structure is introduced. The packet error rates of uncoded FDPIM are analyzed and compared with that of DPIM. Bit error rates of Turbo coded FDPIM are simulated based on three kinds of analytical models under weak turbulence channel. The results show that packet error rate of uncoded FDPIM is inferior to that of uncoded DPIM. However, FDPIM is easy to be implemented and easy to be combined, with Turbo code for soft-decision because of its fixed length. Besides, the introduction of Turbo code in this modulation can decrease the average power about 10 dBm, which means that it can improve the error performance of the system effectively.     

A method for calculating the center position of collimated light

It is a key problem to accurately calculate beam spots＇ center of measuring the warp by using a collimated laser. A new method, named double geometrical center method （DGCM）, is put forward for the first time. In this method, a plane wave perpendicularly irradiates an aperture stop, and a charge couple device （CCD） is employed to receive the diffraction-beam spots, then the geometrical centers of the fast and the second diffraction-beam spots are calculated respectively, and their mean value is regarded as the center of datum beam. In face of such adverse instances as laser intension distributing defectively, part of the image being saturated, this method can still work well. What＇s more, this method can detect whether an unacceptable error exits in the courses of image receiving, processing and calculating. The experimental results indicate the precision of this method is high.     

Resolution Enhancement Technology:Integrated Process Solutions using OPC

DUV lithography, using the 248 nm wavelength, is a viable manufacturing option for devices with features at 130 nm and less. Given the low kl value of the lithography, integrated process development is a necessary method for achieving acceptable process latitude. The application of assist features for rule based OPC requires the simultaneous optimization of the mask, illumination optics and the resist.Described in this paper are the details involved in optimizing each of these aspects for line and space imaging.A reference pitch is first chosen to determine how the optics will be set. The ideal sigma setting is determined by a simple geometrically derived expression. The inner and outer machine settings are determined, in turn,with the simulation of a figure of merit. The maximum value of the response surface of this FOM occurs at the optimal sigma settings. Experimental confirmation of this is shown in the paper.Assist features are used to modify the aerial image of the more isolated images on the mask. The effect that the diffraction of the scattering bars (SBs) has on the image intensity distribution is explained. Rules for determining the size and placement of SBs are also given.Resist is optimized for use with off-axis illumination and assist features. A general explanation of the material' s effect is discussed along with the affect on the through-pitch bias. The paper culminates with the showing of the lithographic results from the fully optimized system.     

Preparation and Characterization of TaN ALD Precursors

High purity organic-tantalum precursors for thin film ALD TaN were synthesized and characterized.Vapor pressure and thermal stability of these precursors were studied.From the vapor pressure analysis,it was found that TBTEMT has a higher vapor pressure than any other published liquid TaN precursor,including TBTDET,TAITMATA,and IPTDET.Thermal stability of the alkyl groups on the precursors was investigated using a 1H NMR technique.The results indicated that the tertbutylimino group is the most stable group on TBTDET and TBTEMT as compared to the dialkylamido groups.Thermal stability of TaN precursors decreased in the following order:TBTDET ＞ PDMAT ＞ TBTEMT.In conclusion,precursor vapor pressure and thermal stability were tuned by making slight variations in the ligand sphere around the metal center.