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排序方式: 共有248条查询结果,搜索用时 31 毫秒
1.
测量了GaAs/AlGaAs多量子阱红外探测器在零偏压、小偏流和大偏压等条件下的光电流谱,并结合理论计算的光跃迁能量讨论了光电流谱的多峰结构和异常增强特性。 相似文献
2.
无机光敏器件难于做成大面积光电传感器,且其生产成本高、工艺复杂,而有机光敏器件多采用二极管或平面场效应三极管结构,导致光电流增益小或驱动电压较大.针对这些问题,提出一种新的器件结构.采用真空蒸镀和溅射的方法,制备了结构为氧化铟锡(ITO)/酞菁铜(Cu Pc)/铝(Al)/酞菁铜(Cu Pc)/铜(Cu)的有机光电晶体管.对器件的光电特性进行了测试分析,结果显示晶体管的I-V特性表现出显著的不饱和特性和光敏特性.当发射极集电极偏压为3 V时,器件无光照时电流放大系数为16.5,当625 nm光照射时的电流放大系数为266.2. 相似文献
3.
The current research on ferroelectric photovoltaic materials is concentrated on enhancing the output photocurrent. As solar cells operate at high temperatures, it is crucial to take into account the effect of increasing temperatures on ferroelectric photovoltaics. In this study, an LNO (lanthanum nickelate, LaNiO3)/BFO (bismuth ferrate, BiFeO3)/ITO (indium tin oxide) device is constructed on a mica substrate by sol–gel method. The device achieves output photocurrent enhancement at a wide temperature range (33–183 °C), with the largest photocurrent enhancement at 130 °C, which is 178% relative to room temperature, and the output power is also increased by 9.88 times. At the same time, compared with BFO bulk, it is found that the performance of BFO film is always higher than that of bulk in the test temperature range, and the output photocurrent of BFO film at room temperature is 104 times higher than that of bulk. This article investigates the effect of high temperatures on ferroelectric photovoltaics and also provides a strategy for enhancing the photovoltaic performance of ferroelectric films, providing guidance for future applications of ferroelectric films in flexible solar cells and other applications. 相似文献
4.
Yichuan Chen Wencai Zhou Xiaoqing Chen Xiaobo Zhang Hongli Gao Nabonswende Aida Nadege Ouedraogo Zilong Zheng Chang Bao Han Yongzhe Zhang Hui Yan 《Advanced functional materials》2022,32(1):2108417
As one of the most promising photovoltaic materials, the efficiency of inorganic–organic hybrid halide perovskite solar cells (PSCs) has reached 25.5% in 2020. However, the stability and hysteresis remain primary challenges before it can become a commercial photovoltaic technology. Therefore, those issues have drawn significant attention for photovoltaic applications. In this work, a study of the PSCs hysteresis improvement is presented based on a combination of first-principles simulations, scanning electron microscopy images, and time-dependent photocurrent measurements. It indicates the hysteresis led by the ion migration and accumulation is mainly localized at the two interfaces: one is between electron transport layer and active layer, and the other is between active layer and hole transport layer. Considering the massive defects at the grain boundaries (GBs), they lower the potential barriers significantly. The defect density at GBs is therefore reduced via the in situ passivation of PbI2 crystals. The hysteresis index is decreased from 22.43% down to 1.04%, and results in an improvement in efficiency from 17.12% up to 20.10%. Following the understanding of defect-induced hysteresis, an approach to improve the hysteresis is provided, which can be integrated into the fabrication process and widely applied to enhance the performance of PSCs. 相似文献
5.
UV Photodetectors Based on BiOCl Nanosheet Arrays: The Effects of Morphologies and Electrode Configurations
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A facile chemical bath method is adopted to grow bismuth oxychloride (BiOCl) nanosheet arrays on a piece of Cu foil (denoted as BiOCl‐Cu) and isolated BiOCl nanosheets are collected by ultrasonication. A self‐supporting BiOCl film is obtained by the removal of Cu foil. Photodetectors (PDs) based on these BiOCl materials are assembled and the effects of morphologies and electrode configurations on the photoelectric performance of these PDs are examined. The BiOCl nanosheet PD achieves high responsivities in the spectral range from 250 to 350 nm, while it presents quite a small photocurrent and slow response speed. The BiOCl film PD yields low photocurrents and near‐unity on–off ratios, demonstrating poor photoelectric performance. The photocurrent of the BiOCl‐Cu PD with both electrodes on the BiOCl film is much higher than those of these above‐mentioned PDs, and the response times are fast. Meanwhile, the BiOCl‐Cu PD with separate electrodes on the BiOCl film and Cu foil achieves even higher photocurrents and presents a self‐powering characteristic, depicting the improved photodetecting performances induced by the specific morphology and distinct electrode configuration. These results would promote the applications of BiOCl nanostructures in the photoelectric devices. 相似文献
6.
新型Au/TiO_2纳米管的制备及其在化学需氧量测定中的应用研究 总被引:1,自引:0,他引:1
该文首次用光电催化的方法,在TiO2纳米管中嵌入金纳米粒子,新材料可以促进界面间电子的传递,有助于电子和空穴对的分离,进而提高光催化效率.对Au/TiO2纳米管进行扫描电子显微镜(SEM),色散型X射线能谱(EDX)和X射线衍射(XRD)表征,结果表明金纳米粒子被成功嵌入TiO2纳米管中,形成蜂窝状结构.将该材料首次用于光电催化法化学需氧量(COD)的测定,发现该传感器的光电流值在1~800mg/L范围内与COD值有良好的线性响应,检测限为0.3 mg/L.利用该传感器测定实际水样的COD值,结果与传统的K2Cr2O7标准方法有较好的一致性. 相似文献
7.
D. Patidar R. Sharma N. Jain T. P. Sharma N. S. Saxena 《Bulletin of Materials Science》2006,29(1):21-24
Chemical method has been used to prepare cadmium sulphide by using cadmium, hydrochloric acid and H2S. The reflection spectra of covered and uncovered sintered films of CdS have been recorded by ‘Hitachi spectrophotometer’
over the wavelength range 300–700 nm. The energy band gaps of these films have been calculated from reflection spectra. It
is found that the energy band gap of both films is same as 2.41 eV. It is indicated that energy band gap of these films does
not change. This value of band gap is in good agreement with the value reported by other workers. The measurement of photocurrent
has also been carried out using Keithley High Resistance meter/ Electrometer. This film shows the high photosensitivity and
high photocurrent decay. Thus so obtained films are suitable for fabrication of photo detectors and solar cells. 相似文献
8.
Zinc telluride thin films have been grown at room temperature and higher temperature substrates by thermal evaporation technique
in a vacuum of 10-6 torr. A main peak in the photocurrent is observed at 781 nm (1.58 eV) with two lower amplitude peaks on the lower wavelength
side and one on higher wavelength side. The evaluated thermal activation energy is found to correspond well with the main
spectral peak. From these studies it can be inferred that temperatures up to 453 K is still in the extrinsic conductivity
region of the studied ZnTe thin films.
The paper was presented at the 6th Asian Thermophysical Properties Conference (6th ATPC), held at Gauhati University, during
8–11 October 2001. 相似文献
9.
P. Samarasekara M. A. K. Mallika Arachchi A. S. Abeydeera C. A. N. Fernando A. S. Disanayake R. M. G. Rajapakse 《Bulletin of Materials Science》2005,28(5):483-486
Copper oxide (CuO) thin films with photocurrent as high as 25 μA/cm2 were deposited on conductive glass substrates using d.c. reactive sputtering. This was the highest reported photocurrent
for sputteredp- type copper oxide measured in the electrolyte KI. The photocurrent drastically increased up to 25 (μA/cm2 as the sputtering pressure and the substrate temperature were increased up to 8.5 mbar and 192°C, respectively. All the synthesized
films contained single phase of CuO in this range of pressure and substrate temperature. Variation of the photocurrent, photovoltage,
structure and absorbance with deposition conditions were studied in detail. 相似文献
10.
The use of the laser beam‐induced current (LBIC) technique in photovoltaic devices is widespread, but its use in photoelectrochemical cells, such as dye‐sensitized solar cells (DSSCs), is limited due to the configuration of these devices. The main reason is the very slow response time of DSSCs in the decay process, and therefore LBIC scans take too long to perform. We have designed a procedure published in the literature to correct the photocurrent values obtained by the LBIC technique, based on an algorithm that uses a decreasing mono‐exponential model. This work presents a study of the decay measurements in DSSCs using several functions, in order to improve the algorithm designed. It concludes that functions such as a decreasing bi‐exponential or Becquerel function generate better fits to experimental data. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献