退火对常压MOCVD法生长的高结晶性能 ZnO薄膜发光特性的影响

研究了氧气退火和氮气退火对ZnO薄膜发光特性的影响。ZnO膜是采用常压金属有机化学气相沉积（MOCVD）法在蓝宝石（0001）衬底上生长的。原生样品1有一很强的紫外峰及较强的绿光峰（525nm附近）;原生样品2有很强的紫外峰,深能级发光几乎观察不到。然后从不同原生膜上取两块小样品,分别在氧气和氮气中退火,退火温度是400,500,600,700,800℃。结果表明,在700℃以下退火,退火气氛对ZnO膜的深能级发光影响较大;超过700℃后,退火温度对ZnO薄膜的发光影响大,但退火气氛影响不太明显。通过退火对ZnO薄膜发光特性的影响,讨论了ZnO膜中525nm附近绿光峰的起源。     

反应溅射氧化锌薄膜的结构特点及性质

以金属Zn(纯度为99.99%)作为靶材,采用离子束反应溅射法在玻璃衬底上溅射沉积了一系列ZnO薄膜样品。通过对薄膜样品X射线衍射(XRD)谱的分析,发现尽管溅射条件不同,但是ZnO薄膜只沿(0002)晶面取向生长。衬底温度和溅射气体的氧分压对薄膜沿c轴取向生长有影响,其中衬底温度的影响较明显。溅射过程中发现衬底温度为360℃最适合(0002)晶面的生长,在此温度下溅射获得了完全沿c轴取向生长且衍射峰最强的ZnO薄膜。室温下测量了ZnO薄膜的发射光谱,发现薄膜在紫外区(364nm附近)、蓝绿区(470nm附近)有较强的发光峰,在紫光区(398nm附近)、蓝光区(452nm附近)和红外区(722nm附近)有较弱的发光峰。ZnO薄膜在空气中退火,对薄膜的结构、发光和电学性质都有一定影响。合适的退火温度可以促进薄膜沿c轴的取向生长;退火后ZnO多晶薄膜的晶粒比未退火的略大;退火使部分发光峰的位置发生偏移并使薄膜的发光强度增强;退火使薄膜的电阻率显著增大,薄膜的电阻率随氧分压的增大而增大。     

N掺杂ZnO薄膜的荧光特性研究

以N2为掺杂源,通过改变O2∶N2比,利用射频磁控溅射法在玻璃衬底上制备了具有[002]择优取向的N掺杂ZnO薄膜,研究了ZnO薄膜的光致发光谱随着N掺入量的不同而变化的规律.结果表明,薄膜主衍射峰为402 nm处的发光峰;由于N掺杂量的不同,有的薄膜在445 nm和524 nm处也有发光发存在,但随着薄膜N含量的不同,其发光峰强度明显不同,其峰位也发生了相应的红移或者蓝移.当O2∶N2为10∶ 15时,制备的薄膜N掺杂量最大,光学性能最好,此工艺为研究ZnO薄膜的缺陷类型及导电类型提供了重要的研究参考.     

Sn掺杂ZnO薄膜的室温气敏性能及其气敏机理

采用化学气相沉积方法在预制好电极的玻璃基底上制备出Sn掺杂ZnO薄膜和纯ZnO薄膜. 两种样品典型的形貌为四足状ZnO晶须, 其直径约为150-400 nm, 呈疏松状结构. 气敏测试结果显示Sn掺杂ZnO薄膜具有优良的室温气敏性, 并对乙醇具有良好的气敏选择性, 而纯ZnO薄膜在室温条件下对乙醇和丙酮均没有气敏响应. X射线衍射结果表明两种样品均为六方纤锌矿结构. Sn掺杂ZnO样品中没有出现Sn及其氧化物的衍射峰, 其衍射结果与纯ZnO样品对比, 衍射峰向小角度偏移. 光致发光结果表明, Sn掺杂ZnO薄膜与纯ZnO薄膜均出现紫外发光峰和缺陷发光峰, 但是Sn的掺杂使得ZnO的缺陷发光峰明显增强. 将Sn掺杂ZnO样品在空气中退火后, 其室温气敏性消失, 说明Sn掺杂ZnO样品的室温气敏性可能与其缺陷含量高有关. 采用自由电子散射模型解释了Sn掺杂ZnO薄膜的室温气敏机理.     

Na-Mg共掺杂ZnO薄膜的结构和光学性质

利用溶胶-凝胶法,在普通载玻片上使用旋转涂膜技术制备了具有c轴择优取向生长的Na-Mg共掺杂的ZnO薄膜。用XRD、SEM、光致发光(PL)及透射光谱对薄膜样品进行了表征。结果表明:Na-Mg共掺杂有利于ZnO薄膜的c轴择优取向生长,并且随着Na+掺杂浓度的增加,晶粒尺寸先增大后减小;通过比较不同掺杂浓度ZnO薄膜的PL谱,推测发光峰值位于380nm的紫外发射与ZnO的自由激子复合有关;发现掺入Mg的确能使ZnO禁带宽度增大,掺杂组分为Na0.04Mg0.2Zn0.76O时,其PL谱只有一个很强的紫光发射峰,其近带边紫外光发射强度较未掺杂的ZnO增强了近10倍,极大地提高了薄膜紫外发光性能;并且随Na+浓度增加薄膜透光性减弱。     

退火对ZnO薄膜质量的影响

用金属有机化学气相沉积法（MOCVD）在蓝宝石（0001）衬底上制备了c轴取向的高质量的ZnO薄膜,通过在生长温度下氧气和氮气中退火处理的比较,研究了退火对ZnO薄膜结构和发光特性的影响。通过X射线衍射测量得知,经过氮气和氧气退火都可以使其002峰增强,且在氧退火中表现得尤为明显。光致发光测量发现氮气中退火的ZnO薄膜的紫外发光峰明显增强,而深能级发光峰明显减弱;而氧气中退火的ZnO薄膜的紫外发光峰略有减弱,而深能级峰显著增强。     

ZnO：V薄膜后退火处理前后的微结构与发光特性

利用溶胶-凝胶(Sol-gel)法在单晶硅(100)衬底上分别制备了ZnO:V薄膜和纯ZnO薄膜。为进一步研究后退火对ZnO:V薄膜结构和发光性质的影响,在两段式快速退火后又在800℃下进行了后退火处理。X射线衍射的结果表明:后退火处理前,钒(V)的掺入使ZnO结晶质量变差,而800℃退火处理后,从ZnO的衍射峰中可以看出,相对于无V杂样品其结晶质量变好。扫描电子显微镜形貌图中可以看出制备的样品薄膜颗粒大小均匀,薄膜致密度较高。光致发光(PL)谱的研究表明:ZnO:V薄膜在800℃退火处理后,紫外和绿带发光峰均增强,但紫外发光峰增强得更多;与同样条件下制备的纯ZnO薄膜的PL谱比较,发现V掺杂后样品的紫外激子复合发光峰的强度明显增强且峰位发生蓝移,而缺陷引起的绿带发光峰的强度降低。     

热处理对ZnO:Zn荧光薄膜结晶性能的影响

用热处理方法对电子束蒸发制备的ZnO:Zn荧光薄膜分别进行400,600℃退火处理。采用X射线衍射、X射线光电子能谱、扫描电子显微镜、光致发光光谱等方法,表征了ZnO:Zn荧光薄膜的结构、成分、形貌、发光性能。在ZnO:Zn荧光薄膜的X射线衍射谱和扫描电子显微镜照片中,可以看出经退火处理后结晶状况大大改善,多晶结构趋于规则,晶粒更加均匀且膜层结构更加致密。在ZnO:Zn荧光薄膜的光致发光谱中,检测到490nm处发光峰,认为一价氧空位(V_O)充当发光中心,且薄膜的光致发光强度受热处理温度的影响很大。实验表明随着退火温度的升高,薄膜的结晶程度提高,弥补了薄膜晶体表面的表面缺陷,薄膜的发光性能不断提高。     

热处理对ZnO∶Zn荧光薄膜结晶性能的影响

用热处理方法对电子束蒸发制备的ZnO∶Zn荧光薄膜分别进行400,600℃退火处理。采用X射线衍射、X射线光电子能谱、扫描电子显微镜、光致发光光谱等方法,表征了ZnO∶Zn荧光薄膜的结构、成分、形貌、发光性能。在ZnO∶Zn荧光薄膜的X射线衍射谱和扫描电子显微镜照片中,可以看出经退火处理后结晶状况大大改善,多晶结构趋于规则,晶粒更加均匀且膜层结构更加致密。在ZnO∶Zn荧光薄膜的光致发光谱中,检测到490 nm处发光峰,认为一价氧空位(VO)充当发光中心,且薄膜的光致发光强度受热处理温度的影响很大。实验表明随着退火温度的升高,薄膜的结晶程度提高,弥补了薄膜晶体表面的表面缺陷,薄膜的发光性能不断提高。     

ZnO∶V薄膜后退火处理前后的微结构与发光特性

利用溶胶-凝胶(Sol-gel)法在单晶硅(100)衬底上分别制备了ZnO∶V薄膜和纯ZnO薄膜。为进一步研究后退火对ZnO∶V薄膜结构和发光性质的影响,在两段式快速退火后又在800℃下进行了后退火处理。X射线衍射的结果表明:后退火处理前,钒(V)的掺入使ZnO结晶质量变差,而800℃退火处理后,从ZnO的衍射峰中可以看出,相对于无V杂样品其结晶质量变好。扫描电子显微镜形貌图中可以看出制备的样品薄膜颗粒大小均匀,薄膜致密度较高。光致发光(PL)谱的研究表明:ZnO∶V薄膜在800℃退火处理后,紫外和绿带发光峰均增强,但紫外发光峰增强得更多;与同样条件下制备的纯ZnO薄膜的PL谱比较,发现V掺杂后样品的紫外激子复合发光峰的强度明显增强且峰位发生蓝移,而缺陷引起的绿带发光峰的强度降低。     

Effect of aging time of ZnO sol on the structural and optical properties of ZnO thin films prepared by sol-gel method

In this work, ZnO thin films were prepared by sol-gel method and the effect of aging time of ZnO sol on the structural and optical properties of the films was studied. The structural characteristics of the samples were analyzed by an atomic force microscope and an X-ray diffractometer. The optical properties were studied by a UV-vis spectrophotometer and a fluorophotometer. The results show that the ZnO thin film prepared by the as-synthesized ZnO sol had relatively poor crystalline quality, low optical transmittance in the visible range and relatively weak ultraviolet emission performance. After the as-synthesized ZnO sol was aged for 24 h, the degree of the preferred crystal orientation along the c-axis of the ZnO thin film prepared by this aged sol was improved. At the same time, this film had a very smooth surface with uniform grains and both its visible range transmittance and ultraviolet emission intensity were obviously increased. These results suggest that appropriate aging of ZnO sol is very important for the improvement of structural and optical quality of ZnO thin films derived from sol-gel method.     

Comparison of ZnO thin films grown on a polycrystalline 3C-SiC buffer layer by RF magnetron sputtering and a sol-gel method

Zinc oxide (ZnO) thin films were deposited on a polycrystalline (poly) 3C-SiC buffer layer using RF magnetron sputtering and a sol-gel method. The post-deposition annealing was performed on ZnO thin films prepared using both methods. The formation of ZnO piezoelectric thin films with less residual stress was due to a close lattice mismatch of the ZnO and SiC layers as obtained by the sputtering method. Nanocrystalline, porous ZnO film prepared using the sol-gel method showed strong ultraviolet UV emission at a wavelength of 380 nm. The 3C-SiC buffer layer improved the optical and piezoelectric properties of the ZnO film produced by the two deposition methods. Moreover, the different structures of the ZnO films on the 3C-SiC intermediate layer caused by the different deposition techniques were also considered and discussed.     

Zinc Oxide Thin Films for Memristive Devices: A Review

Zinc Oxide (ZnO) thin films have been addressed as promising candidates for the fabrication of Resistive Random Access Memory devices, which are alternative to conventional charge-based flash memories. According to the filamentary conducting model and charge trapping/detrapping theory developed in the last decade, the memristive behavior of ZnO thin films is explained in terms of conducting filaments formed by metallic ions and/or oxygen vacancies, and their breaking through electrochemical redox reactions and/or recombination of oxygen vacancies/ions. A comparative review of the memristive properties of ZnO thin films grown by sputtering, atomic layer deposition (ALD), pulsed laser deposition (PLD), and sol-gel methods is here proposed. Sputtered ZnO thin films show promising resistive switching behaviors, showing high on/off ratios (10–10⁴), good endurance, and low operating voltages. ALD is also indicated to be useful for growing conformal ZnO layers with atomic thickness control, resulting in important resistive switching characteristics, such as relatively high on/off ratios and low operating voltages. High insulating epitaxial ZnO thin films can be obtained by PLD, showing reliable switching properties at low voltages and with good retention. On the contrary, the sol-gel approach generally results in ZnO thin films with poor resistive switching behaviors. Nevertheless, thin films derived from ZnO NPs show improved switching performances, with higher on/off ratios and lower operating voltages. Independently of the synthetic approach, doped ZnO thin films exhibit better resistive switching behaviors than pristine ones, coupling a strong increase of the on/off ratio with a more stable switching response.     

The effect of heat treatment on the physical properties of sol-gel derived ZnO thin films

Zinc oxide (ZnO) thin films were deposited on microscope glass substrates by sol-gel spin coating method. Zinc acetate (ZnAc) dehydrate was used as the starting salt material source. A homogeneous and stable solution was prepared by dissolving ZnAc in the solution of monoethanolamine (MEA). ZnO thin films were obtained after preheating the spin coated thin films at 250 °C for 5 min after each coating. The films, after the deposition of the eighth layer, were annealed in air at temperatures of 300 °C, 400 °C and 500 °C for 1 h. The effect of thermal annealing in air on the physical properties of the sol-gel derived ZnO thin films are studied. The powder and its thin film were characterized by X-ray diffractometer (XRD) method. XRD analysis revealed that the annealed ZnO thin films consist of single phase ZnO with wurtzite structure (JCPDS 36-1451) and show the c-axis grain orientation. Increasing annealing temperature increased the c-axis orientation and the crystallite size of the film. The annealed films are highly transparent with average transmission exceeding 80% in the visible range (400-700 nm). The measured optical band gap values of the ZnO thin films were between 3.26 eV and 3.28 eV, which were in the range of band gap values of intrinsic ZnO (3.2-3.3 eV). SEM analysis of annealed thin films has shown a completely different surface morphology behavior.     

(Li,Cu)掺杂ZnO薄膜的发光性质

利用溶胶-凝胶(Sol-gel)法在n型si(100)衬底上制备(Li,Cu)掺杂ZnO薄膜,研究了室温下薄膜的结构、形貌和光致发光性能.研究结果表明,随着Li掺杂浓度的增加,可见光发光强度增加,可见光发射可能是源于单电离氧窄位到价带顶以及单电离氧空位到Li替位Zn(Lizn)受主跃迁的双重作用.与此类似,Cu掺杂Zn...     

Nanostructure and optical properties of M doped ZnO (M=Ni, Mn) thin films prepared by sol-gel process

The transparent thin films of undoped, Mn-doped, and Ni-doped zinc oxide (ZnO) have been deposited on glass substrates via sol-gel technique using zinc acetate dehydrate, nickel chloride, and manganese chloride as precursors. The structural properties and morphologies of the deposited undoped and doped ZnO thin films have been investigated. X-ray diffraction (XRD) spectra, scanning electron microscopy (SEM), atomic force microscopy (AFM), and X-ray photoelectron spectroscopy (XPS) were used to examine the morphology and microstructure of the thin films. Optical properties of the thin films were determined by photoluminescence (PL) and UV/vis spectroscopy. The analyzed results indicate that the obtained films are of good crystal quality and have smooth surfaces, which have a pure hexagonal wurtzite ZnO structure without any Mn or Ni related phases. The band gap energy was estimated by Tauc's method and found to be 3.28, 3.26, and 3.34 eV for ZnO, Ni-doped ZnO, and Mn-doped ZnO thin films at room temperature, respectively. Room temperature photoluminescence is observed for the ZnO, Ni-doped ZnO, and Mn-doped ZnO thin films.     

Influence of glucose on the structural and optical properties of ZnO thin films prepared by sol-gel method

In this work, ZnO thin films were prepared by sol-gel method on glass substrates followed by calcinations at 500 °C for an hour. The effect of glucose on the structure and optical properties of the films was studied. The structural characteristics of the samples were analyzed by X-ray diffractometer (XRD) and atomic force microscope (AFM). The optical properties were studied by a UV-visible spectrophotometer. The results show that some of the prepared ZnO thin films have a high preferential oriented c-axis orientation with compact hexagonal wurtzite structure due to a proper amount of glucose introducing. After introducing the glucose additive in ZnO colloids, the intensity of (002) peak, the transmittance, and the optical band gap of the ZnO thin films increases because of the enhanced ZnO crystallization. On the contrary, the absorbance, the film thickness, and the surface root-mean-square (RMS) roughness of the ZnO thin films decreases. The glucose additive could not only improve the surface RMS roughness and microstructure of ZnO thin films, but also enhance the transmittance and the energy band gap more easily.     

Effect of excimer laser annealing on the properties of ZnO thin film prepared by sol-gel method

Pristine ZnO thin films have been deposited with zinc acetate [Zn(CH₃COO)₂], mono-ethanolamine (stabilizer), and isopropanol solutions by sol-gel method. After deposition, pristine ZnO thin films have been irradiated by excimer laser (λ = 248, KrF) source with energy density of 50 mJ/cm² for 30 sec. The effect of excimer laser annealing on the optical and structural properties of ZnO thin films are investigated by photoluminescence and field emission scanning electron microscope. As-grown ZnO thin films show a huge peak of visible region and a wide full width at half maximum (FWHM) of UV region due to low quality with amorphous ZnO thin films. After KrF excimer laser annealing, ZnO thin films show intense near-band-edge (NBE) emission and weak deep-level emission. The optically improved pristine ZnO thin films have demonstrated that excimer laser annealing is novel treatment process at room temperature.     

退火温度对Cu:ZnO薄膜绿光发射的影响

利用溶胶-凝胶法在Si衬底上制备了不同退火温度的Cu:ZnO薄膜.利用X射线衍射(XRD)、X射线光电子能谱(XPS)、扫描电子显微镜和光致发光谱研究了样品的晶格结构、表面形貌、成分及其发光特性.结果表明:所有样品均具有高度的c轴择优取向,随着退火温度的升高,样品的结晶质量变好,样品的表面都被晶粒覆盖,强而稳定的绿光发射被观察到.绿光强度随退火温度的升高先增加后减小,发光中心位置不随退火温度的变化而改变,这样的绿光发射强而稳定.XRD和XPS结果表明,随退火温度的升高Cu2+还原为Cu+,导致Cu:ZnO薄膜形成的缺陷是VZn,所以绿光发射是由VZn引起的.Cu2+还原为Cu+时,Cu:ZnO薄膜中VZn浓度增加,使绿光发射强度增大.当退火温度超过800?C时,Cu2+的还原能力变差,绿光发射强度减弱.     

Effect of nickel doping on the photocatalytic activity of ZnO thin films under UV and visible light

Nanostructured ZnO thin films with different concentrations of Ni²⁺ doping (0, 1, 5, 10 and 15 wt.%) are prepared by the sol-gel method for the first time. The thin films are prepared from zinc acetate, 2-methoxyethanol and monoethanolamine on glass substrates by using dip coating method. The films comprise of ZnO nanocrystallites with hexagonal crystal structure, as revealed by X-ray diffraction. The film surface is with characteristic ganglia-like structure as observed by Scanning Electron Microscopy. Furthermore, the Ni-doped films are tested with respect to the photocatalysis in aqueous solutions of malachite green upon UV-light illumination, visible light and in darkness. The initial concentration of malachite green and the amount of catalyst are varied during the experiments. It is found that increasing of the amount of Ni²⁺ ions with respect to ZnO generally lowers the photocatalytic activity in comparison with the pure ZnO films. Nevertheless, all films exhibit a substantial activity under both, UV and visible light and in darkness as well, which is promising for the development of new ZnO photocatalysts by the sol-gel method.