分步磁控溅射ZnO和/或功能化碳纳米粒子修饰ZnO电子传输层增强聚合物太阳能电池效率

氧化锌具有良好电子传输性和高透光性,ZnO作为电子传输层已被广泛应用于聚合物太阳能电池。但采用溶胶凝胶法和真空镀膜制备ZnO电子传输层,因ZnO界面具有大量缺陷,极大增加载流子复合。抑制ZnO界面复合电流和改善ZnO界面接触性能,是提高ZnO基电子传输层聚合物太阳能电池性能关键所在。基于P3HT:PCBM反转型聚合物太阳能电池,采用磁控溅射ZnO层,研究了离子液功能化碳纳米粒子(ILCNs)修饰层或Ar/O₂混合气体溅射沉积ZnO修饰层,以及Ar/O₂溅射ZnO界面层与ILCNs联合修饰ZnO界面的聚合物太阳能电池性能。纯Ar和Ar/O₂混合气体下一步溅射沉积ZnO电子传输层,其电池效率分别为2.2%和2.8%。经ILCNs修饰或Ar/O₂溅射ZnO修饰层,电池效率分别达到3.4%和3.1%,并且分步溅射ZnO层并联合ILCNs修饰ZnO界面,聚合物太阳能电池效率可提高到3.8%。ZnO修饰型聚合物太阳能电池克服了电化学阻抗负阻效应,降低了反向暗电流并显示出更好的整流特性。研究表明,采用ILCNs修饰ZnO层和分步溅射ZnO层能有效抑制ZnO界面缺陷和改善界面接触性能,而采用分步溅射ZnO层与ILCNs联合修饰ZnO界面,这种联合修饰ZnO界面方案,更能增强ZnO层电子传输和提取能力,是提高聚合物太阳能电池效率更为有效方案。     

Ca掺杂对ZnO氧化物热学性能的影响

在密度泛函理论和线性响应的密度泛函微扰理论基础上的第一性原理计算的方法研究了Ca掺杂对纤锌矿结构氧化物ZnO热学参数和热学性能的影响。研究结果表明,Ca掺杂ZnO氧化物晶格a,b,c轴均有所增大;在计算温度区间,纯的ZnO和Ca掺杂的ZnO的晶格热容均随温度升高不断增大;Ca掺杂的ZnO具有较高的晶格热容;纯的ZnO和Ca掺杂的ZnO的晶格热容在最高温度900K分别达到16.5 Cal.mol-1K-1和31.7Cal.mol-1K-1。纯的ZnO和Ca掺杂的ZnO的德拜温度 均随温度升高不断增大,Ca掺杂的ZnO的德拜温度 均高于纯的ZnO。Ca掺杂在ZnO中引入了新的振动模式。Ca掺杂ZnO氧化物应该具有较高的晶格热导率。     

Ca掺杂对ZnO氧化物热学性能的影响

在密度泛函理论和线性响应的密度泛函微扰理论基础上的第一性原理计算的方法研究了Ca掺杂对纤锌矿结构氧化物ZnO热学参数和热学性能的影响。研究结果表明,Ca掺杂ZnO氧化物晶格a,b,c轴均有所增大;在计算温度区间,纯的ZnO和Ca掺杂的ZnO的晶格热容均随温度升高不断增大;Ca掺杂的ZnO具有较高的晶格热容;纯的ZnO和Ca掺杂的ZnO的晶格热容在最高温度900K分别达到16.5 Cal.mol-1K-1和31.7Cal.mol-1K-1。纯的ZnO和Ca掺杂的ZnO的德拜温度 均随温度升高不断增大,Ca掺杂的ZnO的德拜温度 均高于纯的ZnO。Ca掺杂在ZnO中引入了新的振动模式。Ca掺杂ZnO氧化物应该具有较高的晶格热导率。     

ZnO薄膜的性质对水热生长ZnO纳米线阵列的影响

用水热法在ZnO薄膜上制备了直径、密度及取向可控的ZnO纳米线阵列。ZnO薄膜是通过原子层沉积(ALD)方法制备并在不同温度下退火处理得到的,退火温度对ZnO薄膜的晶粒尺寸、结晶质量和缺陷性质有很大的影响。而ZnO薄膜的性质对随后生长的ZnO纳米线的直径、密度及取向能起到调节控制的作用。通过扫描电子显微镜(SEM)、X射线衍射(XRD)仪和光致发光(PL)测试对ZnO薄膜和ZnO纳米线进行了表征。最后得到的垂直取向的ZnO纳米线阵列适合在发光二极管和太阳能电池等领域使用。     

Ag掺杂氧化锌纳米材料的制备及高压相变拉曼光谱研究

宽禁带直接带隙半导体材料氧化锌（ZnO）,具有优异的光电性能、机械性能和化学特性。ZnO材料的结构对其性能影响较大,元素掺杂可改变ZnO晶体结构和带隙宽度,是提升ZnO材料性能的有效手段,当前常用Ag掺杂ZnO即为提高光催化反应效率。高压独立于温度、成分,是调控材料结构组织性能的重要手段,是产生新材料、发现新调控原理的重要因素。该研究通过对比纯ZnO晶体和Ag掺杂ZnO晶体的高压相变行为,揭示了元素掺杂对ZnO纳米晶体材料结构性能的影响。研究首先采用水热法辅助制备纯ZnO纳米微球和Ag掺杂ZnO纳米微球（1∶150Ag/ZnO）,表征结果显示水热法合成的纯ZnO和1∶150Ag/ZnO均为六角纤锌矿晶体结构,形貌均为几十纳米尺寸小颗粒堆积形成的微球,ZnO晶格常数随着Ag离子掺杂而变大,Ag掺杂导致ZnO晶格膨胀。随后应用金刚石压腔结合原位拉曼光谱技术测定了纯ZnO和Ag掺杂ZnO的高压结构相变行为。相比于纯ZnO拉曼峰,Ag掺杂ZnO的E₂（high）振动模式439 cm-1拉曼峰峰宽变窄,并呈现向低频方向移动的趋势,与无定形ZnO谱峰相近,表明Ag+取代Zn2+影响了Zn-O键,同时也影响了ZnO晶格结构的长程有序性。随体系压力增大,表征六角纤锌矿结构ZnO的拉曼特征峰439 cm-1出现瞬间弱化和宽化。压力增大至9.0 GPa时,纤锌矿结构ZnO拉曼特征峰439 cm-1消失,585 cm-1处出现新峰,ZnO晶体发生由六角纤锌矿向岩盐矿的结构转变。压力继续增大至11.5 GPa,新的拉曼峰显著增强,峰形变窄,同时向高波数方向移动,相变完成,岩盐矿结构ZnO性能稳定。1∶150 Ag/ZnO从六角纤锌矿结构到立方岩盐结构的相变压力为7.2 GPa,低于纯ZnO。相变压力降低表明晶体结构稳定性下降,可能的原因在于掺杂Ag导致ZnO晶格膨胀,晶体结构松弛,两相相对体积变化增加,从而导致相变势垒降低,使样品在较低压力下发生相变。纳米材料的高压研究揭示了元素掺杂对材料结构稳定性的影响,是纳米材料调控原理的潜在研究手段。     

W-Cu共掺杂ZnO电子结构和光学性质

采用了基于密度泛函理论(DFT)的第一性原理平面波超软赝势方法,计算了本征ZnO, W单掺杂ZnO, Cu单掺杂ZnO,以及W-Cu共掺杂ZnO电子结构和光学性质.计算结果表明:W掺杂属于n型掺杂, Cu掺杂属于p型掺杂,单掺杂均可以提高ZnO的载流子浓度,从而改善ZnO的导电性. W-Cu共掺杂时ZnO进入简并状态,呈现金属性质.三种掺杂ZnO的吸收光谱均发生红移,其中W-Cu共掺杂时, ZnO对太阳光谱的吸收效果最好.     

纳米ZnO在高压下的性质与结构研究

 在金刚石压砧上测量了20 nm的ZnO和体相粉末ZnO的电阻-压力关系。研究结果表明，20 nm的ZnO在7.9 GPa 压力时出现了相变，而体相粉末ZnO在5 GPa 时有相变发生。虽然粒径小的相变压力大于粒径大的，但与以前关于体相粉末ZnO所报道的文献结果有所不同。文中对此作了解释，并对纳米ZnO在压力下的畴破裂进行了研究。     

Cu-Co共掺杂ZnO光电性质的第一性原理计算

采用密度泛函理论框架下的第一性原理平面波超软赝势方法,计算了本征ZnO,Cu 1021cm-3单掺杂ZnO,Co单掺杂ZnO,Cu-Co共掺杂ZnO的电子结构和光学性质.结果表明,在本文掺杂浓度数量级下,Cu,Co单掺杂可以提高ZnO的载流子浓度,从而改善ZnO的导电性,Cu-Co共掺杂时ZnO半导体进入简并状态,呈现金属性.这三种掺杂ZnO均会在可见光和近紫外区域出现光吸收增强现象,其中由于Cu离子与Co离子之间的协同效应,Cu-Co共掺杂ZnO对太阳光的吸收大幅增加,因此Cu-Co共掺杂ZnO可以用于制备高效率的太阳电池.     

ZnO 极性表面及其N原子吸附机理的第一性原理研究

基于密度泛函理论的第一性原理赝势法计算了ZnO极性表面的几何结构和电子结构特性,对比分析了ZnO(0001)和ZnO(0001)表面结构弛豫、能带结构、电子态密度及N吸附ZnO极性表面的形成能情况.计算结果表明: 相对于ZnO(0001)表面,ZnO(0001)表面受结构弛豫影响更加明显,而ZnO(0001)表面完整性更好.相对于体相ZnO结构,ZnO(0001)表面的能带带隙变窄,同时价带顶附近能级非局域性增强使晶体表面的导电性能变得更好;而ZnO(0001)表面的能带带隙变宽,由于O^{-关键词： 密度泛函理论 第一性原理 ZnO极性表面 N吸附}     

Cu掺杂ZnO纳米材料的制备及表征

利用CuO作为前驱体对ZnO进行了Cu掺杂研究,分别在不同温度下获得了ZnO纳米带及有纳米带构成的微米花状结构,对其生长机理进行了分析。并且以Cu片为衬底获得了ZnO的纳米梳以及有纳米梳构成的多层结构ZnO。XRD表明产物中只有ZnO单质相的存在,EDS证明产物中存在Cu元素。ZnO室温下的PL谱表明其UV与深能级发射强度比随Cu掺杂量的增加而变大,说明Cu的掺杂能够降低ZnO的缺陷峰强度。     

Guided-Wave Two-Dimensional Acousto-Optic Scanner Using Proton-Exchanged Lithium Niobate Waveguide

Two-dimensional scanning of a 0.6328 mum guided-light beam has been realized using noncolinear acousto-optic (AO) coplanar Bragg diffraction together with colinear AO guided-mode to substrate radiation-mode conversion in a Z-cut Xpropagation LiNbO3 proton-exchanged (PE) waveguide. The two surface acoustic (SAW) waves utilized are at the center frequencies of 500 and 200 MHz, propagating in the Y and X axes, respectively. Two-dimensional scanning of approximately 720 resolvable light beam spots, namely, 18 40 (horizontal vertical) scanning, has been demonstrated using a light beam of 1.0 mm aperture. The total number of resolvable beam spots can be greatly increased from 720 by simply utilizing SAW transducers of larger bandwidth and a light beam of greater aperture. It should also be possible to significantly increase the diffraction efficiency from 3 % by optimizing the parameters of the PE waveguide and the SAWs.     

Hybrid Wavelength and Code Division Multiple Access in Optical Networks

A review of schemes for multiple access in fiber optic networks shows that a hybrid of wavelength and code division multiple access (WCDMA) combines the best features of both. In particular, the hybrid scheme retains the large information carrying capacity of wavelength division multiple access (WDMA) and flexibility of code division multiple access (CDMA). In this paper WDMA, optical CDMA (OCDMA), and WCDMA networks are discussed. In OCDMA networks, concept of incoherent and coherent coding including inverse decoding and matched filter is introduced. The delay performance of both WDMA and WCDMA networks, under the simple suboptimum access protocols based on cyclic search, is computed. It has been shown quantitatively that tuning delay significantly affects the delay performance of both WDMA and WCDMA networks. Futhermore, delay performance of WCDMA networks is always better than the WDMA networks for the same tuning delay, load, and number of users.     

Effect ofγ-radiation on the spectral luminescence characteristics of impure cadmium tungstate crystals

Results of a study of the effect of γ-radiation on the spectral luminescence properties of cadmium tungstate crystals doped with silver, bismuth, and molybdenum cations are presented. Spectral characteristics of the nondnnnoped crystals are briefly described. Absorption and photo and X-ray luminescence spectra of the crystals taken before and after exposure to γ-radiation (5.5·10⁴ Gy) are compared. It is found that the spectral characteristics of the crystals doped with silver, bismuth, and molybdenum cations do not change markedly after the exposure. The relation between the type of impurity-induced defects, individual characteristics of the impurity cations, and the character of the effect of γ-radiation on the spectral luminescence properties of impure crystals is analyzed (preliminarily). Translated from Zhurnal Prikladnoi Spektroskopii, Vol. 64, No. 1, pp. 55–60, January–February, 1997.     

Femtosecond Transform-Limited Pulse Generation by Compensating for the Linear Chirp of SPM Spectra in Dispersion Shifted Fibers

A simple technique of pulse compression, based on the linear chirp compensation of self-phase modulation (SPM) spectra in dispersion shifted fibers, is demonstrated. The optimization procedure is carried out, for a short span of a single-mode fiber, using a parabolic law, which describes the behavior of the squared output pulse width versus the pump peak power in the case of Gaussian pulses. The experimental results give a minimum pulse duration of 233 fs, which is in good agreement with the model. Shorter and coherent pulses, down to 90 fs, have been obtained by inserting an interference filter at the optical output.     

Sorting of bending magnets for the SSRF booster

The Shanghai Synchrotron Radiation Facility(SSRF)booster ring,a full energy injector for the storage ring,is deigned to accelerate the electron beam energy from 150MeV to 3.5GeV that demands high extraction efficiency at the extraction energy with low beam loss rate when electrons are ramping.Closed orbit distortion(COD)caused by bending magnet field uniformity errors which affects the machine performance harmfully could be effectively reduced by bending magnet location sorting.Considering the affections of random errors in measurement,both ideal sorting and realistic sorting are studied based on measured bending magnet field uniformity errors and one reasonable combination of bending magnets which can reduce the horizontal COD by a factor of 5is given as the final installation sequence of the booster bending magnets in this paper.     

Measurement of nonlinear coefficient of optical fiber based on small chirped soliton transmission

We measure the waveform and phase curves of short optical pulses before and after transmission over different lengths of fibers by use of the pulse analyzer with the frequency-resolved optical gating (FROG),and numerically simulate pulse evolution under the experimental conditions.The nonlinear coefficient of the fiber is given by comparing the experimental results with the numerical ones.Difference between the experiment and numerical simulation is analyzed.     

Resonance scattering of canonical elastic shells in absorbing fluid medium

Resonance scattering of elastic spherical shell and cylindrical shell while the surrounding fluid medium has absorption is studied. The normal mode solution derived using exact elastic theory and the separation of variables is still applicable. However, the scattering form function has to be modified for the absorbing medium, otherwise the unreasonable result would be obtained. The backscattering form function in the absorbing medium is redefined, and the form function of elastic spherical and cylindrical shell with vacuum or solid matter filled is calculated in various absorption conditions. The results show that the absorption of surrounding fluid leads to notable attenuation of the coincidence resonances in the mid-frequency, but it has a little influence on the low-frequency resonance scattering induced by the filler inside the shell.     

Single-beam self-referenced phase-sensitive surface plasmon resonance sensor with high detection resolution

A versatile and low-cost single-beam self-referenced phase-sensitive surface plasmon resonance(SPR)sensing system with ultra-high resolution performance is presented.The system exhibits a root-mean-square phase fluctuation of ±0.0028.over a period of 45 min.i.e.a resolution of±5.2×10-9 refractive index units.The enhanced performance has been achieved through the incorporation of three design elements:a true single-beam configuration enabling complete self-referencing so that only the phase change associated with SPR gets detected,a differential measurement scheme to eliminate spurious signals not related to the sensor response,and the elimination of retardation drifts by incorporating temperature stabilization in the liquid crystal phase modulato .Our design should bring the detection sensitivity of non-labeling SPR biosensing closer to that achievable by conventional fluorescence-based techniques.     

Influences of SiO2 protective layers and annealing on the laser-induced damage threshold of Ta2O5 films

Ta2O5 films are prepared on BK7 substrates with conventional electron beam evaporation deposition.The effects of SiO2 protective layers and annealing on the laser-induced damage threshold (LIDT) of the films are investigated.The results show that SiO2 protective layers exert little influence on the electric field intensity(EFI)distribution,microstructure and microdefect density but increase the absorption slightly.Annealing iS effective on decreasing the microdefect density and the absorption of the films.Both SiO2 protective layers and annealing are beneficial to the damage resistance of the films and the latter is more effective to improve the LIDT.Moreover,the maximal LIDT of Ta2O5 films is achieved by the combination of SiO2 protective layers and annealing.