离子束反应溅射ZnO薄膜的晶体结构及光学、电学性质研究

采用离子束反应溅射法在玻璃基片上沉积了一系列ZnO薄膜样品.通过对薄膜样品XRD谱的分析,发现基片温度和溅射氧分压是同时影响ZnO薄膜沿c轴择优取向生长的重要因素.在基片温度350 ℃,氧分压1.3 的溅射条件下,得到了完全沿c轴取向生长的只有(002)晶面的ZnO薄膜.薄膜的吸收光谱测量结果表明,基片温度和氧分压对ZnO薄膜的光学禁带宽度有重要影响.不同氧分压、不同基片温度制备的薄膜电阻率相差很大.     

PZT/ZnO薄膜制备及其结构特性研究

利用固相反应制备的ZnO-Li_(2.2%)陶瓷靶和RF射频磁控溅射技术在Si(100)基片上制备了高度c轴择优取向的ZnO薄膜,XRD和电性能分析表明掺杂Li离子改善了ZnO靶材的结构和性能,同时研究了不同RF溅射温度对ZnO薄膜结构与取向的影响;然后采用sol-gel前驱单体薄膜制备方法,以ZnO为过渡层淀积PZT薄膜,探讨高度c轴(002)择优取向ZnO薄膜对PZT薄膜结构与性能的影响,实验发现在PZT/ZnO异质结构中,致密、均匀和高度c轴择优取向的ZnO可作为晶核,促进PZT钙钛矿结构转化、晶粒(110)择优取向生长,相应降低PZT薄膜的退火温度.     

高度(002)择优取向Li+掺杂ZnO薄膜的制备和性能

制备了不同摩尔浓度Li 掺杂ZnO-Li0.022陶瓷靶、并用RF射频磁控溅射工艺在Si(100)基片上制备ZnO薄膜,研究了溅射温度、氧分压和溅射功率等对ZnO薄膜微结构、表面形貌和择优取向的影响.结果表明:Li 的最佳掺杂量(摩尔分数)为2.2%,RF溅射的最佳基片温度Ts小于300 ℃,氩氧气氛体积比为Ar:O2=20:5,溅射功率50～60 W;制备出的ZnO薄膜高度c轴(002)择优取向、均匀、致密,其绝缘电阻率ρ为4.12×108 Ω·cm,满足研制声表面波器件(SAW)的要求.     

磁控溅射工艺参数对ZAO薄膜性能的影响

通过磁控溅射氧化铝锌陶瓷靶材的方法在玻璃基片上制备ZAO薄膜,研究了溅射电流、溅射气压、基片温度对ZAO膜电学及光学性能的影响,使用X射线衍射仪分析了薄膜相结构,使用台阶仪测试薄膜厚度,使用四探针方阻仪测试薄膜电阻率,采用紫外可见分光光度计测试薄膜透过率。结果表明:溅射电流增加可以改善ZAO薄膜的透过率与电阻率;溅射气压对薄膜的结晶性和透过率影响不大,但电阻率会随溅射气压的增大而上升;基体温度升高可以提高AZO薄膜的透过率与电导率。     

溅射功率对ZnO：Si透明导电薄膜性能的影响

采用直流磁控溅射法在室温玻璃基片上制备出了掺硅氧化锌（ZnO：Si）透明导电薄膜,研究了溅射功率对ZnO：Si薄膜结构、形貌、光学及电学性能的影响,实验结果表明,溅射功率对ZnO：Si薄膜的生长速率、结晶质量及电学性能有很大影响,而对其光学性能影响不大。实验制备的ZnO：LSi薄膜为六方纤锌矿结构的多晶薄膜,且具有垂直于基片方向的c轴择优取向。当溅射功率从45W增加到105W时,薄膜的晶化程度提高、晶粒尺寸增大,薄膜的电阻率减小;当溅射功率为105W时,薄膜的电阻率达到最小值3．83~104n·cm,其可见光透过率为94．41％。实验制备的ZnO：Si薄膜可以用作薄膜太阳能电池和液晶显示器的透明电极。     

直流磁控溅射法制备掺钛氧化锌透明导电薄膜

采用直流磁控溅射法在室温水冷玻璃衬底上制备出高质量的掺钛氧化锌(ZnO:Ti)透明导电薄膜,研究了溅射功率对ZnO:Ti薄膜结构、形貌和光电性能的影响,结果表明,溅射功率对ZnO:Ti薄膜的结构和电阻率有显著影响.XRD表明,ZnO:Ti薄膜为六角纤锌矿结构的多晶薄膜,且具有c轴择优取向.当溅射功率为130W时,实验制备的ZnO:Ti薄膜的电阻率具有最小值9.67×10~(-5)Ω·cm.实验制备的ZnO:Ti薄膜具有良好的附着性能,可见光区平均透过率超过91%.ZnO:Ti薄膜可以用作薄膜太阳能电池和液晶显示器的透明电极.     

溅射气压对直流磁控溅射ZnO:Al薄膜的影响(英文)

采用直流磁控溅射法在玻璃基片上沉积ZnO:Al(AZO)薄膜,溅射气压为0.2～2.2 Pa.通过X射线衍射(XRD)、扫描电子显微镜(SEM)、四探针和紫外–可见分光光度计对AZO薄膜的相结构、微观形貌和电光学性质进行了表征.结果表明:薄膜的沉积速率随着溅射气压的增大而减小,变化曲线符合Keller-Simmons模型;薄膜均为六角纤锌矿结构,但择优取向随着溅射气压发生改变;溅射气压对薄膜的表面形貌有显著影响;当溅射气压为1.4 Pa时,薄膜有最低的电阻率(8.4×104 Ω·cm),高的透过率和最高的品质因子Q.     

采用MCECR等离子体溅射方法制备硬碳膜

采用封闭式电子回旋共振(MCECR)等离子体溅射的方法在硅(100)基片上沉积了高质量的硬碳纳米微晶薄膜,膜层厚度约40 nm,采用氩等离子体溅射碳靶.薄膜的键结构采用X射线光电子能谱仪(XPS)分析,纳米结构采用高分辨率透射电子显微镜(HRTEM)分析.本文研究了基片偏压对薄膜的纳米结构、摩擦特性(摩擦系数及磨损率)以及薄膜的纳米硬度的影响.摩擦特性采用POD摩擦磨损仪测试,纳米硬度采用纳米压入仪测试.     

离子束溅射与射频溅射制备的ZnO薄膜的特性分析

分别采用两种不同的方法制备了ZnO薄膜.①离子束溅射法(IBD),在Si(001)衬底上制备锌膜后在氧气氛炉中退火;②射频溅射法(RF),在Si(001)衬底上制备ZnO薄膜后在氧气氛炉中退火.利用X射线衍射仪和原子力显微镜(AFM)以及电感、电容、电阻综合测试仪(LCR)对两种方法制备的ZnO薄膜的结构、形貌和导电性进行了比较研究.结果表明,离子束溅射的锌膜经热氧化后得到的ZnO薄膜生长的单向性较差,表面粗糙度较大,薄膜的电阻率也比较高.     

新型工艺制备ZnO薄膜的结构与形貌研究

采用了一种新型工艺制备ZnO薄膜。新工艺采用二步法,首先在N型Si(100)衬底上用离子束沉积溅射一层金属Zn膜,然后通过热氧化金属Zn膜制备ZnO薄膜。通过X射线衍射、原子力显微镜对不同制备工艺下的ZnO薄膜进行结构与形貌的分析比较。研究表明,Zn膜的离子束溅射沉积时间、热氧化时间和辅助枪的离子束对热氧化后的ZnO薄膜再轰击处理对ZnO薄膜的结构与形貌都会产生影响。     

High quality transparent conductive ZnO/Ag/ZnO multilayer films deposited at room temperature

We have fabricated, by simultaneous DC and RF magnetron sputtering, multilayer transparent electrodes having much lower electrical resistance than the widely used transparent conductive oxide electrodes. The multilayer structure consists of three layers (ZnO/Ag/ZnO). Ag films with different film thickness were used as metallic layers. Optimum thicknesses of Ag and ZnO films were determined for high optical transmittance and good electrical conductivity. Several analytical tools such as spectrophotometer, atomic force microscopy, scanning electron microscopy and four-point probe were used to explore the possible changes in electrical and optical properties. A high quality transparent electrode, having resistance as low as 3 Ω/sq and high optical transmittance of 90% was obtained at room temperature and could be reproduced by controlling the preparation process parameters. The electrical and optical properties of ZnO/Ag/ZnO multilayers were determined mainly by the Ag film properties. The performance of the multilayers as transparent conducting materials was also compared using a figure of merit.     

纳米Ag夹层ZnO薄膜的光电性能

用射频磁控溅射ZnO陶瓷靶、直流磁控溅射Ag靶的方法在室温下制备了Ag纳米夹层结构ZnO薄膜．用X射线衍射仪、紫外一可见分光光度计、四探针电阻测量仪和原子力显微镜对薄膜样品的结构、光学透过率、面电阻和表面形貌进行表征．结果表明,ZnO衬底有利于Ag夹层形成连续膜．随着Ag层厚度的增加,Ag夹层ZnO薄膜呈现多晶结构,Ag（111）衍射峰强度增强,面电阻先迅速下降后缓慢下降．随着ZnO膜厚度的增加,Ag夹层ZnO薄膜的透射峰红移．制得样品的最佳可见光透过率高达92．3％,面电阻小于4．2Ω／□．     

Transparent Conducting ZnO:A1 Films on Different Organic Substrates Deposited by r.f. Sputtering

Transparent conducting ZnO:AI films with good adhesion, low resistivity and high transmittance have been prepared on polyptopylene adipate (PPA), polyisocyanate (PI) and polyester substrates by r.f. magnetron sputtering. The structural, electrical and optical properties of the obtained films were studied. The polycrystalline ZnO:AI films with resistivity as Iow as 5.76×10-4 Ω·cm,carrier concentration 9.06×1020 cm-a and Hall mobility 11.98 cm2 V-1s-1 were produced on PPA substrate by controlling the deposition parameters. The average transmittance of films on PPA is ～80% in the wavelength range of visible spectrum. The films on PPA substrates have better electrical and optical properties compared with the filmson other kinds of substrates.     

Transparent conducting ZnO : Al films on different organic substrates deposited by r.f. sputtering

1. IntroductionThansparellt conducting zinc oxide films have beenextensively studied in recede years, because of theirlow material cost, relatively low deposition temperature and stability in hydrogen plasma compared withITO and SnOZ films[1]. These adVatages are of considerable interest for electrrvoptical conversion device.Compared with undoped ZnO, Al-doped ZnO filmshave lobed resistivity and better stability. nansparellt conducting films deposited on organic substrateshave many lments…     

Structural, electrical and optical properties of ZnO:Al films deposited on flexible organic substrates for solar cell applications

Aluminum doped ZnO thin films (ZnO:Al) were deposited on glass and poly carbonate (PC) substrate by r.f. magnetron sputtering. In addition, the electrical, optical properties of the films prepared at various sputtering powers were investigated. The XRD measurements revealed that all of the obtained films were polycrystalline with the hexagonal structure and had a preferred orientation with the c-axis perpendicular to the substrate. The ZnO:Al films were increasingly dark gray colored as the sputter power increased, resulting in the loss of transmittance. High quality films with the resistivity as low as 9.7 × 10^− 4 Ω-cm and transmittance over 90% have been obtained by suitably controlling the r.f. power.     

非织造材料表面生长ZnO薄膜的特性研究

室温下采用射频磁控溅射技术在涤纶纺粘非织造材料表面生长ZnO薄膜。通过扫描电子显微镜及原子力显微镜对ZnO薄膜的微观结构进行表征,用分光光度计测量样品的透光率。结果表明,ZnO薄膜为纳米级,其平均晶粒大小约为30 nm~55 nm。生长了ZnO透明纳米结构的非织造材料对紫外光有较强的吸收能力,在可见光区的透光率达60%以上。     

New natively textured surface Al-doped ZnO-TCOs for thin film solar cells via magnetron sputtering

Natively textured surface aluminum doped zinc oxide (ZnO:Al) thin films were directly deposited via pulsed direct current (DC) reactive magnetron sputtering on glass substrates. During the reactive sputtering process, the oxygen gas flow rate was varied from 8.5 sccm to 11.0 sccm. The influences of oxygen flow rate on the structural, electrical and optical properties of naturally textured ZnO:Al TCO thin films with milky surface were investigated in detail. Gradual oxygen growth (GOG) technique was developed in the reactive sputtering process for textured ZnO:Al thin films. The light-scattering ability and optical transmittance of the natively textured ZnO:Al TCO thin films can be improved through gradual oxygen growth method while maintaining a low sheet resistance. Typical natively textured ZnO:Al TCO thin film with crater-like surface exhibits low sheet resistance (R_s ～ 4 Ω), high transmittance (T_a > 85%) in visible optical region and high haze value (12.1%).     

利用脉冲直流磁控溅射制备ZnO:Al薄膜的研究

利用中频脉冲直流磁控溅射法制备了平面ZnO:Al(AZO)透明导电薄膜,研究了沉积压力、衬底温度和溅射功率对AZO薄膜光电性能、薄膜稳定性的影响.结果表明:在较低沉积压力、衬底温度及溅射功率下,可获得具有低电阻率、高透过率、高稳定性的AZO薄膜.     

Influence of hydrogen on the properties of Al and Ga-doped ZnO films at room temperature

Low resistivity and high transmittance of Al-doped ZnO (AZO) and Ga-doped ZnO (GZO) transparent conductive thin films have been achieved by use of pulsed dc magnetron sputtering in a hydrogen environment at room temperature. The addition of hydrogen to the sputtering gas can reduce the resistivity of the films and improve their electrical properties compared to those prepared without H2, because the hydrogen acts a shallow donor. The average transmittance was over 85% in the visible region, and the lowest resistivity of the AZO and GZO films was 4.01×10(-4) (Ω-cm) and 4.39×10(-4) (Ω-cm), respectively.     

磁控溅射制备ITO薄膜光电性能的研究

采用直流磁控溅射方法在玻璃基底上制备了ITO薄膜.分别用分光光度计和四探针仪测试了所制备ITO薄膜在可见光区域内的透过率和电阻率,研究了溅射气压、氧氩流量比和溅射功率三个工艺参数对ITO薄膜光电性能的影响.研究结果表明,制备ITO薄膜的最佳工艺参数为:溅射气压0.6 Pa,氧氩流量比1:40,溅射功率108 W.采用此工艺参数制备的ITO薄膜在可见光区平均透过率为81.18％,薄膜电阻率为8.9197×10-3Ω·cm.