升华外延碳化硅p-n结的性质

本工作测量了升华外延碳化硅p-n结的电流-电压特性和空间电荷电容。通过对正向电流-电压特性及电容-电压特性的分析,表明:随着外延生长条件的不同,这种p-n结的结构可以在相当宽的范围内变化,从近于线性梯度结直到典型的p-i-n结,而大多数p-n结则介于这两者之间。文中就外延生长条件对p-n结结构的影响进行了简略的讨论。此外,还给出了升华外延碳化硅p-n结正向电发光的亮度-电流关系、光谱分布以及脉冲和交流激励的测量结果。 关键词：     

Concept of epitaxial silicon structures for edge illuminated solar cells

A new concept of edge illuminated solar cells (EISC) based on silicon epitaxial technique has been proposed. In this kind of photovoltaic (PV) devices, sun-light illuminates directly a p-n junction through the edge of the structure which is perpendicular to junction surface. The main motivation of the presented work is preparation of a working model of an edge-illuminated silicon epitaxial solar cell sufficient to cooperation with a luminescent solar concentrator (LSC) consisted of a polymer foil doped with a luminescent material. The technological processes affecting the cell I–V characteristic and PV parameters are considered.     

Experimental analysis and modeling of the IV characteristics of photovoltaic solar cells under solar spectrum spot illumination

In this paper, some models that have been put forward to explain the characteristics of a photovoltaic solar cell device under solar spot-illumination are investigated. In the experimental procedure, small areas of the cell were selected and illuminated at different solar intensities. The solar cell open circuit voltage (V_oc) and short circuit current (I_sc) obtained at different illumination intensities was used to determine the solar cell ideality factor. By varying the illuminated area on the solar cell, changes in the ideality factor were studied. The ideality factor obtained increases with decreasing illumination surface ratio. The photo-generated current at the illuminated part of the cell is assumed to act as a dc source that injects charge carriers into the p-n junction of the whole solar cell while the dark region of the solar cell operates in a low space charge recombination regime with small diffusion currents. From this analysis, a different model of a spot illuminated cell that uses the variation of ideality factor with the illuminated area is proposed.     

Organic homojunction diodes with a high built-in potential: interpretation of the current-voltage characteristics by a generalized Einstein relation

We realize p- and n-type doping of the organic semiconductor zinc-phthalocyanine using a novel strong organic donor. This allows us to demonstrate the first stable and reproducible organic p-n homojunctions. The diodes show very high built-in potentials, attractive, e.g., for organic solar cells. However, the diode characteristics cannot be described by the standard Shockley theory of the p-n junction since the ideality factor strongly increases with decreasing temperature. We show that this behavior can be explained by deviations from the Einstein relation for disordered materials.     

Radial junction silicon solar cells with micro-pillar array and planar electrode interface for improved photon management and carrier extraction

We demonstrate radial p-n junction silicon solar cells with micro-pillar array with higher short-circuit current and open-circuit voltage than comparable planar silicon solar cells. Micro-pillar array, fabricated by RIE, acts as an effective anti-reflection coating for visible light with less than 6% reflection. Compared to devices with planar surface, devices with micro-pillar array show a 27% enhancement in short circuit current. The radial p-n junction of the micro-pillars also improves extraction probability of the photogenerated carriers, which further increases the short circuit current. Typically, micro-pillar solar cells suffer from high recombination losses at the Si/metal interface, resulting in poor V_OC. Our devices prevent these recombination losses by planarizing the Si/metal interface, leading to an open circuit voltage of 622?mV, the highest ever reported for micro-pillar solar cells. This planarized contact also reduces the series resistance associated with radial junctions, leading to series resistance of ≤0.50?Ω-cm² and fill factors up to 76.7%.     

Probe studies of silicon p-n junctions

The results of single-probe studies of thick and thin silicon p-n junctions are described. The electric fields in a diode with a p⁺-n junction and in a stabilitron with a p-n junction in the forward and reverse directions are studied. Measurements are made at various currents and temperatures. The p-n junctions are analyzed on the basis of the probe measurements.     

具有高阻抗本征SnO2过渡层的CdS/CdTe多晶薄膜太阳电池

采用超声喷雾热解法制备了具有高阻抗的本征SnO₂透明导电膜，将其运用在CdS层减薄了的CdS/CdTe多晶薄膜太阳电池中，对减薄后的CdS薄膜进行了XRD,AFM图谱分析，并对电池进行了光、暗I-V，光谱响应和C-V测试.结果表明，在高阻膜上沉积的减薄CdS薄膜(111)取向更明显，但易形成微孔.引入高阻层后，能消除CdS微孔形成的微小漏电通道，有效保护p-n结，改善了电池的并联电阻、填充因子和短波响应，使载流子浓度增加，暗饱和电流密度减小，从而电池性能得到改善，电池转换效率增加了14.4%. 关键词： CdTe电池 过渡层 效率     

Effects of degenerate dislocations in alloy p-n junctions on the duration of transients

Results are given from transient tests on silicon alloy p-n junctions in materials with various dislocation densities. The decay time, stored-charge clearance time, and recovery time are found to be dependent on the dislocation density. The results agree with theory.     

Surface changes in silicon during heating in air to 450°c

The Voltampere characteristics of silicon p-n junctions, prepared by pulling from a crucible and the floating zone method, were used to study some of the properties of silicon.     

硅太阳能电池的调制载流子红外辐射动态响应与参数分析

建立了调制激光诱发硅太阳能电池的少数载流子密度波数学模型,并利用光致载流子辐射检测掺杂浓度、阻抗及载流子输运参数. 对频域响应曲线中的双弯曲效应进行了研究,构建了小交流信号作用的太阳能电池等效电路拓扑结构,仿真分析了不同掺杂浓度、阻抗电阻和载流子传输参数对频响曲线拐点的影响. 通过光致载流子辐射频域扫描实验与多参数拟合检测了单晶硅太阳电池的施/受主浓度、并联电阻和载流子输运参数. 结果表明：光致载流子辐射技术检测大面积太阳能电池频响曲线的双弯曲是由电容效应所引起的,建立的数学模型可定量描述和预测检测结果,并用于测量太阳能电池的掺杂浓度、电阻和载流子输运参数. 关键词： 调制自由载流子辐射 扫频检测 PN结电容 参数测量     

Epitaxial periodic p-n structures in PbS

The electrical and photoelectrical properites of periodic p-n structures in an epitaxial film of PbS are studied. The plane of the junctions is perpendicular to the plane of the film. The possibility of using such structures in the photodiode mode as low inertia detectors of IR radiation is shown. Qualitative agreement of the dark characteristics (volt-ampere curve, temperature dependence of resistance) of the p-n structure and photosensitive polycrystalline films was noted. This confirms the hypothesis that in sensitization of polycrystalline films, barriers of the p-n junction type are formed.     

Residual non-idealities in the almost ideal silicon p-n junction

The reproducible, mass production of almost ideal silicon p-n junctions has allowed two new phenomena to be discovered: a pure generation without recombination, and a slow capacitance-free current transient. Our present knowledge of these phenomena is reviewed and speculations about the centres responsible for them are discussed; these centres seem to be connected to ultimate, unavoidable properties of the silicon p-n junction rather than to unwanted impurities.     

The performances of silicon solar cell with core–shell p-n junctions of micro-nano pillars fabricated by cesium chloride self-assembly and dry etching

Silicon micro-nano pillars are cost-efficiently integrated using twice cesium chloride (CsCl) islands lithography technique and dry etching for solar cell applications. The micro PMMA islands are fabricated by inductively coupled plasma (ICP) dry etching with micro CsCl islands as masks, and the nano CsCl islands with nano sizes then are made on the surface of micro PMMA islands and silicon. By ICP dry etching with the mask of micro PMMA islands and nano CsCl islands, the micro-nano silicon pillars are made and certain height micro pillars are randomly positioned between dense arrays of nano pillars with different morphologies by controlling etching conditions. With 300 nm depth p-n junction detected by secondary-ion mass spectrometry (SIMS), the micro pillars of the diameter about 1 μm form the core–shell p-n junction to maximize utility of p-n junction interface and enable efficient free carrier collection, and the nano tapered pillars of 150 nm diameter are used to decrease reflection by a graded-refractive-index. Compared to single micro or nano pillar arrayed cells, the co-integrated solar cell with micro and nano pillars demonstrates improved photovoltaic characteristic that is a photovoltaic conversion efficiency (PCE) of 15.35 % with a short circuit current density (J _sc) of 38.40 mA/cm² and an open circuit voltage (V _oc) of 555.7 mV, which benefits from the advantages of micro-nano pillar structures and can be further improved upon process optimization.     

The effect of local inhomogeneities on the performance of solid ionic devices

Application of voltages to mixed conductors can lead to the formation of local inhomogeneities. As a result, high local field values may appear with an impact on the device performance. The effect of voltage application is investigated through a computer model based on Maxwell's third equation and fundamental equations governing charge transport. Results are in agreement with experimental ones reported in the literature. The formation of p-n junctions is also clearly demonstrated.     

硅薄膜太阳电池表面纳米线阵列光学设计

陷光结构的优化是增加硅薄膜太阳电池光吸收进而提高其效率的关键技术之一. 以硅纳米线阵列为代表的光子晶体微纳陷光结构具有突破传统陷光结构Yablonovith极限的巨大潜力. 通常硅纳米线阵列可以用作太阳电池的增透减反层、轴向p-n结、径向p-n结. 针对以上三种应用, 本文运用有限时域差分(FDTD)法系统研究了硅纳米线阵列在 300-1100 nm 波段的光学特性. 结果表明, 当硅纳米线作为太阳电池的减反层时, 周期P=300 nm, 高度H=1.5 μm, 填充率(FR)为0.282条件下时, 反射率最低为7.9%. 当硅纳米线作为轴向p-n结电池时, P=500 nm, H=1.5 μm, FR=0.55条件下纳米线阵列的吸收效率高达22.3%. 硅纳米线作为径向p-n结电池时, 其光吸收主要依靠纳米线, 硅纳米线P=300 nm, H=6 μm, FR= 0.349 条件下其吸收效率高达32.4%, 进一步提高其高度吸收效率变化不再明显. 此外, 本文还分析了非周期性硅纳米线阵列的光学性质, 与周期性硅纳米线阵列相比, 直径随机分布和位置随机分布的硅纳米线阵列都可以使吸收效率进一步提高, 相比于周期性硅纳米线阵列, 优化后直径随机分布的硅纳米线阵列吸收效率提高了39%, 吸收效率为27.8%. 本文运用FDTD法对硅纳米线阵列的光学特性进行设计与优化, 为硅纳米线阵列在太阳电池中的应用提供了理论支持.     

Direct observation of the carrier transport process in InGaN quantum wells with a pn-junction

A new mechanism of light-to-electricity conversion that uses InGaN/GaN QWs with a p-n junction is reported.According to the well established light-to-electricity conversion theory,quantum wells(QWs) cannot be used in solar cells and photodetectors because the photogenerated carriers in QWs usually relax to ground energy levels,owing to quantum confinement,and cannot form a photocurrent.We observe directly that more than 95% of the photoexcited carriers escape from InGaN/GaN QWs to generate a photocurrent,indicating that the thermionic emission and tunneling processes proposed previously cannot explain carriers escaping from QWs.We show that photoexcited carriers can escape directly from the QWs when the device is under working conditions.Our finding challenges the current theory and demonstrates a new prospect for developing highly efficient solar cells and photodetectors.     

步进扫描时间分辨光谱及其在太阳电池光电导上的应用

建立傅里叶变换步进扫描时间分辨光电导光谱，并研究太阳电池中与转换效率密切相关的少数载流子寿命.实验选取三种典型的硅太阳电池(单晶硅样品1、多晶硅样品2和多晶硅样品3 )，发现其瞬态光电导的上升和衰退曲线可以分别用两个简单的指数函数描述.由于有复合中心的参与，复合过程中少数载流子的寿命比产生过程中的寿命短.为验证实验结果的可靠性，采用了提取样品少数载流子的体寿命和计算其有效扩散长度两种方法.通过与太阳电池暗伏安特性和负载特性研究相结合，进一步分析和讨论了少数载流子寿命与短路电流、开路电压和转换效率的关系.同时探讨了步进扫描时间分辨光谱实验的其他用途. 关键词： 步进扫描 时间分辨 硅太阳电池 瞬态光电导     

Hg1-xCdxTe n+-p光电二极管中的深能级及其电流机构的流体静压力研究

在流体静压力(0—2GPa)下,对Hg_1-xCd_xTe n⁺-p光电二极管(x=0.5)室温电学特性进行了实验和理论研究。通过考虑深能级压力效应及其对深能级辅助隧道电流的影响,较好地解释了实验上观察到的p-n结伏安特性在小偏压范围下呈现的“反常”压力关系。由对实验数据的理论拟合得到两个深能级:D₁(=E_v+0.75E_g)和D₂(=E_v关键词：     

质子辐射损伤对单结GaAs/Ge太阳电池暗特性参数的影响

基于p-n结暗特性双指数模型,对经质子辐射后的单结GaAs/Ge太阳电池的暗特性I-V曲线进行数值拟合,确定了单结GaAs/Ge太阳电池在辐射前后的四个暗特性特征参数,即串联电阻R_s、并联电阻R_(sh)、扩散电流I_(s1)和复合电流I_(s2).研究结果表明,质子辐射后单结GaAs/Ge太阳电池的R_s,R_(sh),I_(s1)和I_(s2)四个暗特性参数均发生显著变化.经低能质子辐射后,单结GaAs/Ge太阳电池的R_(sh)随位移损伤剂量的增加而减小,而R_s,I_(s1)和I_(s2)三个参数随位移损伤剂量的增加而增大,其中串联电阻随位移损伤剂量线性增加而与辐射质子能量无关.理论分析表明,上述参数的变化与质子辐射损伤区域分布有关.基区和发射区的损伤主要引起单结电池串联电阻和扩散电流的增加;结区的损伤导致并联电阻减小,复合电流增大.     

工业级纳米绒面多晶硅太阳电池的制备及其性能研究

基于产线工艺制备了纳米绒面多晶硅太阳电池,并表征其光电转换性能。研究结果表明：相对传统微米绒坑,纳米绒面能够提升多晶硅太阳电池的短路电流,相应的光电转换效率绝对值提升大于0.4%,产线均值光电转换效率超过了19.1%。结合漫反射光谱和外量子效率测试结果,改进的光电转换的原因归结为纳米绒面能够有效地诱捕短波和长波太阳光子,增强短波和长波太阳光响应。本研究证实纳米绒面多晶硅太阳电池可利用产线工艺制备且具有较高的光电转换效率,能够实现产业化。