ZnO纳米棒的制备及紫外探测性能

通过水热法在ITO衬底上成功合成了ZnO纳米棒,并以ITO为电极制备了ZnO纳米棒紫外探测器件。在室温下测试了所制备器件对紫外光的响应性能。测试结果表明,ZnO纳米棒对紫外光有很好的光响应,在0V附近,ZnO纳米棒紫外探测器的灵敏度能达到1500。此外,通过循环测试可以观测到ZnO纳米棒紫外探测器具有良好的重复性和稳定性。     

包埋Pt纳米粒子对金属-半导体-金属结构ZnO紫外光电探测器性能的影响

利用射频磁控溅射设备制备ZnO薄膜, 最终制备ZnO/Pt纳米粒子/ZnO 结构的金属-半导体-金属型紫外光电探测器. 研究了Pt纳米粒子处在ZnO薄膜层中的不同深度对金属-半导体-金属型紫外光电探测器响应性能的影响. 结果表明, 探测器的响应度随着Pt纳米粒子在ZnO薄膜层中所处深度的增大而升高. 在60 V偏压下, 包埋Pt最深的探测器在波长365 nm处取得响应度最大值1.4 A·W^-1, 包埋有Pt探测器的响应度最大值为无Pt 纳米粒子探测器响应度最大值的7倍. 结合对ZnO薄膜表面的表征及探测器各项性能的测试, 得出包埋Pt纳米粒子增强器件的响应性能可归因于表面等离子体增强散射.     

表面修饰ZnO纳米线紫外光响应的增强效应

制备了基于单根ZnO纳米线的紫外光探测原型器件,并研究了聚苯乙烯硫酸钠表面修饰对器件紫外响应特性的影响.研究发现,在相同的紫外光照射条件下,表面修饰后的器件对紫外光的探测灵敏度比修饰前提高了3个数量级.I-V特性研究表明,修饰前后器件在光照时的电导没有明显变化,但修饰后器件的暗电导却下降了3个数量级.这说明通过表面修饰降低探测器的暗电导是提高紫外光探测器灵敏度的一条重要途径. 关键词： 紫外光探测器 纳米结构 ZnO 表面修饰     

ZnO纳米棒/CdS量子点的制备及紫外-可见探测性能研究

本文采用水热法在ITO衬底上制备了ZnO纳米棒阵列,然后用化学水浴沉积法在纳米棒上制备CdS量子点。分别利用SEM和XRD对样品形貌和晶体结构进行表征。结果表明,球状的CdS量子点均匀地包覆在ZnO纳米棒表面,且结晶质量较好。基于ZnO纳米棒和ZnO纳米棒/CdS量子点制备的探测器对紫外光都具有很好的响应,然而与ZnO纳米棒探测器相比,ZnO纳米棒/CdS量子点探测器在相同条件下的光电流提高了7倍,为0. 52 mA。此外,ZnO纳米棒/CdS量子点探测器对绿光和蓝光也表现出了很好的响应。     

Si基沉积ZnO薄膜的光谱特性

利用同步辐射真空紫外光研究了Si基沉积ZnO薄膜的发射光谱、激发光谱及其湿度依赖。首次观测到高于ZnO禁带宽度的发射带（290nm)，并初步指定其来源。     

ZnO纳米线紫外探测器的制备和快速响应性能的研究

一维ZnO纳米结构由于具有比表面积大、室温下具有大激子结合能等特点而受到广泛关注. 但是如何实现纳米结构的器件一直是目前研究的一个挑战. 文章通过水热方法, 在玻璃衬底上实现了ZnO纳米线横向生长, 并制备出基于ZnO纳米线的金属-半导体-金属紫外探测器. 测量结果显示器件在365 nm处探测器的响应度达到5 A/W, 并且制备的探测器在空气中对紫外光照具有快速的响应, 其上升时间约4 s, 下降时间约5 s, 这与ZnO纳米线中的氧空位吸附和脱附水分子相关.     

ZnO单晶和BeZnO合金的生长及其紫外探测器研究

用分子束外延(MBE)的方法在c面蓝宝石衬底上生长出了高质量的ZnO单晶薄膜和BexZn1-xO合金薄膜。X射线光电子能谱(XPS)测试结果表明,合金材料中Be元素的摩尔分数分别为1.8%、4.9%、8.0%和15.3%。在此基础上制备了ZnO基和BexZn1-xO基的金属-半导体-金属(MSM)结构紫外探测器。ZnO单晶探测器的响应波长为375nm,在1V电压下,350nm处的光响应度高达43A/W,光电流和暗电流之比达到105量级。在BexZn1-xO基紫外探测器中,其截止响应波长随着合金中Be含量的增加逐渐蓝移,其中Be0.153-Zn0.847O合金探测器的截止响应波长为366nm,紫外波段和可见波段的光电流之比达到2~3个数量级,具有良好的信噪比。此外,提出了氧气等离子体表面处理降低探测器暗电流的方法,并使ZnO单晶探测器的暗电流降低了4个数量级。     

光电子技术与器件 光探测与器件

O434．22 2005042906 ZnO肖特基势垒紫外探测器=ZnO Schottky barrier UV photodetector[刊,中]／高晖(电子科技大学微电子与固体电子学院,四川,成都(610054)),邓宏…／／发光学报,- 2005,26(1),-135-138 以p-Si(111)为衬底,用水热法首次制得六棱微管 ZnO,并以此为有源区利用平面磁控溅射技术沉积得到Ag 叉指状电极,从而制作了Ag／n-ZnO肖特基势垒结紫外探测器。对该紫外光探测器的暗电流和365 nm波长光照下的光电流、光响应和量子效率进行了测试。测试结果表     

一维游标位敏阳极光子计数探测器

报道了一维游标位敏阳极光子计数探测器,详细介绍了一维游标位敏阳极的解码原理和设计结果.搭建了基于一维游标位敏阳极探测器的紫外光子计数探测系统.该系统工作于光子计数模式,可同时测量单光子事件的一维坐标.获得了对应入射光空间强度一维分布的脉冲计数分布图.通过测试,系统的分辨率优于100μm.该探测器可以实现极微弱的高能光子、电子和离子等粒子流强度分布的一维探测,因此可以用于深空探测、光谱测量、高能物理以及生物发光探测.     

ZnO 紫外探测器的研究

利用水热法生长的N型优质ZnO晶体材料蒸镀了Au、Ag、Al金属,制备出金属-半导体-金属型(MSM)ZnO紫外探测器,测试了五种接触类型的ZnO紫外探测器(Au-ZnO-Au、Ag-ZnO-Ag、Au-ZnO-Al、Ag-ZnO-Al、Al-ZnO-Al)在365nm紫外光光照前后的I-V特性曲线。实验表明Au-ZnO-Au 型、Ag-ZnO-Ag型的探测器的光电流是暗电流的100 万倍,因此,Au-ZnO-Au型、Ag-ZnO-Ag型的ZnO紫外探测器性能比Au-ZnO-Al、Ag-ZnO-Al、Al-ZnO-Al型的优越。ZnO材料的电阻率对ZnO紫外探测器的光电流有较大的影响。在相同偏压下,电阻率越大,探测器的光电流越小。ZnO ultraviolet(UV) detectors with Metal-Semiconductor-Metal(MSM) structure were fabricated by the vacuum evaporation of Au, Ag, and Al on the n-type ZnO single crystal, which was grown with hydrothermal synthesis method. Five types of MSM ZnO detectors(Au-ZnO-Au, Ag-ZnO-Ag, Au-ZnO-Al, Ag-ZnO-Al,Al-ZnO-Al) were illuminated with 365 nm UV light respectively, and their corresponding I-V(Current-Voltage) characteristics were measured. The UV photocurrent values for Au-ZnO-Au and Ag-ZnO-Ag detectors were 1x106 times than their dark current values, and these facts imply that the Au-ZnO-Au and Ag-ZnO-Ag detectors were rather good UV detectors compared to Au-ZnO-Al, Ag-ZnO-Al, Al-ZnO-Al detectors. The photocurrent of the MSM ZnO detectors was also sensitive to the cubic resistance of the ZnO crystal. And it’s found that the higher resistance rate the ZnO crystal the smaller photocurrent value the detector under the same working voltage.     

UV detectors based on nanocrystalline ZnO films

Nanocrystalline films of zinc oxide deposited by rf magnetron sputtering are used as a working material of UV detectors. The photoelectric performance of UV detectors versus ZnO deposition conditions is studied. The influence of the surface topology of the UV detectors on their efficiency is examined with an atomic force microscope.     

The comparison of ZnO nanowire detectors working under two wavelengths of ultraviolet

Schottky-barrier ultraviolet (UV) detectors based on ZnO-nanowires (NWs) were fabricated with Pt as electrodes in this investigation. The ZnO NWs synthesized by the hydrothermal method were characterized by field-emission scanning electron microscopy (FE-SEM), Raman and PL spectroscopy. Photoelectric properties under 254 and 365 nm UV light were investigated. It is found that the photo-response properties of the devices under 365 nm UV light are better than those under 254 nm UV light, which is further illustrated by light transmission theory, energy-band diagram and absorption spectra. The results demonstrate that ZnO NWs detectors with selectivity to near-UV (NUV) light are promising candidates in photoelectric devices.     

Ultraviolet detectors based on ZnO films by thermal oxidation of Zn metallic films

Metallic Zn films were deposited on glass substrates by electron-beam evaporation. ZnO films were synthesized by thermal oxidation of Zn metallic films in air. At the annealing temperature of 550 °C, ZnO nanowires appeared on the surface, which mainly result from the decrease of oxidation rate. A ZnO ultraviolet photodetector was fabricated based on a metal-semiconductor-metal planar structure. The detector showed a large UV photoresponse with an increase of two orders of magnitude. It is concluded that promising UV detectors can be obtained on ZnO films by thermal oxidation of Zn metallic films. The ways of performing spectral response measurements for polycrystalline ZnO films are also discussed.      

Effects of electrolyte on ZnO nanostructures synthesized by galvanostatic electrochemical deposition and their UV sensing properties

In this study, ZnO nanorods (NRs) and nanocombs (NCs) are synthesized by simple galvanostatic electrochemical deposition technique, without prepared any ZnO seed-layer or catalyst. The effect of the different morphologies on the UV sensing characteristics has been studied under ambient conditions. The photoluminescence (PL) spectra and time-dependent photoresponse of the ZnO nanostructures exhibited good optical properties. At room temperature, NCs showed superior response with 9% change of its resistance, few seconds response time and fully recovery. Inversely, in high temperature ZnO NRs indicated better response than NCs with the variation of 25% of its resistance. The dependence photoresponse on temperature demonstrated clearly how surface-defects affect on UV response of ZnO nanostructures. Our approach is to provide a simple and cost-effective way to fabricate UV detectors.     

ZnO薄膜的掺杂及其结型材料的研究进展

ZnO薄膜作为一种多用途的半导体材料，一直受到国内外学术界的广泛关注，尤其是自1997年发现ZnO薄膜的室温紫外光发射以来，ZnO薄膜的制备及其光电子特性的研究成为新的研究热点，几年来，研究进展非常迅速，巳报道了结型电致发光器件和光电探测器件的初步研究结果，文章结合作者的工作，综述了目前国内外对ZnO薄膜的掺杂以及ZnO异质结和同质p-n结制备方面的研究状况。     

Ultra-long multicolor belts and unique morphologies of tin-doped zinc oxide nanostructures

We demonstrate the synthesis, characterization and application of pure and tin (Sn) doped zinc oxide (ZnO) nanostructures with unique optical properties. Pencil-shaped nanorods were synthesized using a mixture of pure ZnO and carbon as starting material. The growth mechanism of these nanorods is discussed in detail. Sn-doped ultra-long belt-shape ZnO structures show many different colors in a single belt under fluorescent light in an optical microscope. These different colors are attributed to the presence of different defects in the ZnO lattice. X-ray diffraction and UV–VIS spectroscopy results are in good agreement with each other. A major application for these belts is likely to be in a single-particle sensor. A single belt based UV sensor is also fabricated and the results suggest that these photoconducting belts can serve as highly sensitive UV-light detectors.     

基于高阻ZnO薄膜的光电导型紫外探测器

本文通过射频磁控溅射法在玻璃衬底上沉积一层ZnO薄膜, 制备了Al-ZnO-Al 结构光电导型紫外探测器件, 并在室温下测试了所制备器件的暗场特性及其对紫外线的响应特性. 暗场条件下器件电流特性测试结果表明所制备的ZnO薄膜电阻率达到了3.71×10⁹ Ω · cm, 是一种高阻薄膜. 在波长365 nm, 光强303 μW/cm²的紫外线照射下, 薄膜的电阻率为7.20×10⁶ Ω · cm, 探测器明暗电流比达到了516. 40 V偏置电压条件下周期性开关紫外线照时, 探测器的上升和下降时间分别为199 ms和217 ms, 响应速度快且重复性好, 并利用ZnO半导体表面复合慢过程和体复合快过程对瞬态响应过程进行了理论拟合分析. 本文研究结果表明, 高阻ZnO薄膜紫外探测器具有良好的紫外光电响应特性.     

Performance improvement of ZnO/P3HT hybrid UV photo-detector by interfacial Au nanolayer

In this study, a hybrid ultraviolet (UV) photo detector comprising of hydrothermally grown highly oriented Zinc Oxide nanorod arrays (ZnO NRAs) and Poly(3-hexylthiophene-2,5-diyl) (P3HT) as an active layer was fabricated and characterized. These hybrid photo detectors demonstrated a high rectification ratio (∼117) and responsivity of 10.7 A/W at −2  V under incident light of wavelength 325 nm. Further to investigate the effect of surface plasmon property of metal nanoparticles on the performance of hybrid UV photo detectors, ZnO NRAs were capped with dc sputtered gold (Au) metal nanolayer (∼5 nm) at the ZnO-P3HT interface, prior to coating P3HT layer on top of it. It was found out that upon Au coating the absorption of the ZnO was enhanced partly in the ultraviolet and visible region. In consequence the rectification ratio and responsivity of the hybrid photo detector was enhanced drastically from 117 to 1167 and 10.7 to 17.7 A/W respectively. Interestingly the reduction in dark current was observed on Au coating and it was revealed that Au nanoparticles play a key role in enhancing the performance of the hybrid photo detectors.