Photoelectron相关论文
TiO2纳米材料良好的光电性能, 为其作为制备染料敏化太阳电池等新型太阳电池的光阳极材料提供了很好的应用基础。采用溶胶-凝胶法......
The spiderlike structures in the photoelectron momentum distributions of ionized electrons from the hydrogen atom are nu......
BiOI-sensitized titanium dioxide (TiO2) photocatalysts were prepared by a deposition method at room temperature and char......
The Ce-Fe-O mixed oxide with a ratio of Ce/Fe=7:3, which was prepared by coprecipitation method and employed as oxygen c......
A series of CeO_2-Co_3O_4 mixed oxide catalysts with different Co/(Co+Ce) atomic ratios were synthesized by citric acid ......
ZnO films and ZnO:Cu diluted magnetic semiconductor films were prepared by radio frequency magnetron sputtering on Si(11......
We report a mild template-free hydrothermal route for selective synthesis of SnO2 hollow microspheres and nano-sheets us......
Red mud-fly ash based cementitious material mixed with different contents of oil shale calcined at 700℃is investigated ......
The surface composition and electronic structure of tungsten carbides prepared by directsynthesis and carburization of ......
The electrochemical behaviours of titanium alloy Ti-10V-2Fe-3Al after electropolishing in a self-developed electrolyte i......
The chemical stripping method of titanium alloy oxide films was studied. An environment friendly solution hydrogen perox......
The ZnO and Zn1-xMnxO minicrystal were synthesized by chemical vapor transport (CVT). The electron trap structure (donor......
InP材料被广泛的应用于光电子领域,但其材料脆、工艺不成熟、成本高,而Si基外延InP材料能良好的改善该技术瓶颈。论文中对不同介质......
The microwave absorption dielectric-spectrum technique was used to study the decay kinetics of photoelectrons in sulfur-......
Self-assembled structure of cyanine dyes: J-aggregates characteristicson optical information storing
Dye sensitization is a fundamental function for solar cell and silver halide (AgX) microcrystal to increase the optoelec......
卤化银乳剂微晶体的光电子行为是影响照相感光度的重要因素,本文就光电子研究方法、光电子衰减、电子陷阱、本征与外来带电中心对......
本文根据地方院校的特点,探讨光电子专业技术人才培养模式。合理的课程设置,构建产学研结合的教学体系,有利于培养适合社会,企业需求的......
着重介绍了高效精密加工制造技术的科学内涵、应用范围和在机械加工制造业的重要性,以及国内外研究现状与发展趋势,分析了国内在先进......
用原子序数选煤,用光电子智能无水选煤机排矸脱硫,能减少水对环境的污染,能节省能源和带来明显的经济效益.介绍了A.爰因斯坦光电效......
讨论了微波相敏检测法的原理,重点对感光材料薄膜在曝光过程中光电子引起的介电函数的变化以及由此导致的微波谐振腔反射波电压变......
微波吸收无接触测量技术可以用于半导体粉体材料、微晶材料等研究光生载流子衰减过程.本文采用微波吸收法在室温下分别测量了ZnO纳......
分析了典型光电倍增管的电子束聚焦过程和射频电磁场对其干扰的机理,在此基础上利用脉冲光源和TEM小室设计了一套实验装置,开展了......
本文介绍低能量电子发射枪,适合装备在X射线光电子能谱系统上,在进行半导体或其它导电性较差物质的光电子分析时进行样品表面的电......
文章分析研究了一价金属中电子的能量和金属相关性质。设计了两个实验,选择一价金属,用单色准直紫外激光做实验,在光电子能谱仪上......
采用磁控溅射方法,在石英衬底上制备了光电性能优良的ZnO紫外探测器。通过紫外光电性能测试、扫描电子显微镜(SEM)观察及X射线衍射(XRD......
利用微波吸收介电谱检测技术测量了感绿染料增感AgCl乳剂的自由和浅束缚光电子时间分辨谱.对比发现增感乳剂与未增感乳剂光电子衰......
针对晶体中光电子涨落的特点,分析了光吸收激发和热激发中影响光电子产生的因素。在光电子的衰减阶段,不同的电了陷阱所起的作用不同......
采用微波吸收法,测量了ZnO及ZnO:Zn荧光粉末材料受到超短激光脉冲激发后其导带电子的衰减过程,并测量了室温下荧光材料的吸收光谱......
利用微波吸收相敏检测技术, 对AgBrI-T颗粒乳剂中光电子时间行为进行了检测, 并获得了自由光电子与浅束缚光电子的时间分辨谱. 实......
基于微通道板的光子计数探测器在天文方面得到广泛的应用。该文针对微通道板在极紫外波段的光电子产出进行深入研究,给出了材料光......
筛选可良好响应半导体光电子的微生物菌株,在矿物与微生物交互作用研究中应用前景广阔。从某铀尾矿土壤中,利用含有半导体材料Ti N......
研究制作测试光电管、二极管物理特性仪器并完成数据测试,提高仪器设备的综合性.采用建筑装修材料铝方管材制作光电管暗箱,用数字......
为克服场发射电子源在平板显示屏中存在的不稳定性和不均匀性问题,研制了以光电发射源替代场致发射源的光电平板显示屏.本文介绍了......
We calculate nonperturbatively the irfluence of a strong circularly polarized laser beam on the hydrogen atom energy lev......
光电子产业作为21世纪具有代表性的主导产业之一,对当今世界科技发展起到巨大驱动力的作用。而《光电子技术》则是电子信息科学类......
