温度对AZO薄膜红外辐射性能的影响

随着全球资源的减少和环境的恶化,节能减排已成为人们关注的焦点,具有保温隔热功能的低辐射玻璃成为研究的热点。提高玻璃保温隔热性能最有效的方法就是在其表面涂覆低辐射率层。原材料丰富、导电性能好、可见光透过率高等优势使得Al掺杂ZnO (AZO)薄膜成为最具潜力的低辐射率层。系统研究了温度对AZO薄膜红外辐射性能的影响,分析了变化机理。首先研究了在一定的温度下持续一段时间后,AZO薄膜的红外比辐射率的变化情况。然后研究了在变温环境中红外比辐射率的变化情况。采用直流磁控溅射法在室温下玻璃基片上沉积500 nm厚的AZO薄膜,将薄膜放到马弗炉中进行热处理,在100～400 ℃空气气氛下保温1 h,随炉冷却。采用X射线衍射仪对AZO薄膜进行物相分析,采用扫描电子显微镜观察薄膜表面形貌变化。利用四探针测试法测量AZO薄膜的电阻率,采用红外比辐射率测试仪测试薄膜红外比辐射率, 可见分光光度计测量可见光谱。测试的结果表明,薄膜热处理前后均为六角纤锌矿结构,(002)择优取向。300 ℃及以下热处理1 h后,(002)衍射峰增强,半高宽变窄,晶粒尺寸长大。随着热处理温度的升高,薄膜的电阻率先减小后增大,200 ℃热处理后的薄膜具有最小的电阻率(0.9×10-3 Ω·cm)。热处理温度升高,晶粒长大使得薄膜电阻率降低。热处理温度过高,薄膜会从空气中吸收氧,电阻率下降。薄膜的红外比辐射率变化趋势和电阻率的一致,在200 ℃热处理后获得最小值(0.48)。自由电子对红外光子有较强的反射作用,当电阻率低,自由电子浓度高的时候,更多的红外光子被反射,红外辐射作用弱,红外比辐射率小。薄膜的可见光透过率随着热处理温度的升高先减小后增大,200 ℃热处理后的薄膜的可见光透过率最小,但仍高达82%。这种变化是由于自由电子浓度变化引起的,自由电子对可见光有很强的反射作用。选取未热处理和200 ℃热处理后的样品进行变温红外比辐射率的测量,将样品放在可加热的样品台上,位置固定,在室温到350 ℃的升温和降温过程中每隔25 ℃测量一次红外比辐射率,结果表明,在室温到350 ℃的温度范围内,AZO薄膜的红外比辐射率在升温过程中随着温度的上升而增大,在降温过程中减小,经过整个升、降温过程后,薄膜的红外比辐射率增大。     

基于YAG透明陶瓷制作衍射光栅元件的研究

研究并制作了以钇铝石榴石(YAG)透明陶瓷为基底材料的衍射光栅元件。通过磁控溅射技术在YAG透明陶瓷表面溅射一层均匀致密的金属铬,获得带有硬掩模的陶瓷样品。借助接触式曝光系统进行光刻,反复试验,获得带有衍射光栅的YAG透明陶瓷样品。经光学轮廓仪检测,样品铬膜厚0.072 m,光栅细节得到完好保留。实际光栅的衍射图样再次验证了以YAG透明陶瓷代替传统微光刻基底材料制作衍射光栅的可行性,使得衍射光栅在更为复杂的环境下发挥作用成为可能。     

Low-temperature deposition of transparent conducting ZnO:Zr films on PET substrates by DC magnetron sputtering

Transparent conducting zirconium-doped zinc oxide (ZnO:Zr) films were firstly deposited on polyethylene terephthalate (PET) substrates with ZnO buffer layers by DC magnetron sputtering at room temperature. Dependence of physical properties of ZnO:Zr films on deposition pressure was systematically studied. All the deposited films were polycrystalline and (1 0 0) oriented. When deposition pressure increases from 1 to 2.5 Pa, the crystallinity of the films improves and the resistivity decreases. While deposition pressure increases from 2.5 to 3.5 Pa, the crystallinity of the films deteriorates and the resistivity increases. The lowest resistivity of 1.8 × 10⁻³ Ω cm was obtained for the films deposited at the optimum deposition pressure of 2.5 Pa. All the films present a high transmittance of above 86% in the wavelength range of the visible spectrum.     

Optical and mechanical properties of AlF3 films produced by pulse magnetron sputtering of Al targets with CF4/O2 gas

In this study, AlF₃ thin films were deposited by pulse magnetron sputtering of Al targets with different ratios of CF₄/O₂ gas and at different sputtering powers. The optical and mechanical properties of the AlF₃ thin films were analyzed. The transmittance spectra showed no obvious negative inhomogeneous refractive indices. Denser films with a low optical absorption were obtained when high sputtering powers were used (larger than 30 W). The lowest extinction coefficient (7.3 × 10⁻⁴ at 193 nm) of the films can be reached with 12 sccm O₂ flow rate and at 160W sputtering power. All of the residual stresses were compressive and their trends were consistent with the refractive indices. The lowest compressive stress (0.068 GPa) was obtained when the AlF₃ films were prepared at 160W sputtering power.     

纳米β-FeSi2/a-Si多层膜室温光致发光分析

采用射频磁控溅射的方法,在Si（100）基片上制备了纳米β-FeSi₂/Si多层结构,利用X射线衍射、透射电子显微镜、光致发光光谱等表征技术,研究了β-FeSi₂/Si多层结构的结构、成分和光致发光特性.研究结果表明：利用磁控溅射法得到的Fe/Si多层膜,室温下能够检测到β-FeSi₂的1.53 μm处光致发光信号;未退火时多层膜是（非晶的FeSi₂+β-FeSi₂颗粒）/非晶Si结构,退火后则是 关键词： 2')" href="#">β-FeSi₂ 磁控溅射 XRD 光致发光光谱     

膜层厚度对蓝宝石衬底上生长的ITO薄膜性质的影响

采用磁控溅射的方法在蓝宝石衬底上制备了氧化铟锡(ITO)透明氧化物薄膜;研究了不同厚度薄膜的结构、光学和电学特性。经X射线衍射(XRD)测量,发现在蓝宝石衬底上生长的ITO薄膜呈现了较高的(222)择优取向;随着膜层厚度的增加,该衍射峰对应的2θ衍射角逐渐向大角度方向移动,同时该衍射峰的半峰全宽逐渐减小,平均晶粒尺寸增大。 经光学透射光谱测量,发现随着膜层厚度的增加,光学透过率逐渐减小。膜层厚度为0.2 μm时,可见光透过率超过80%,当膜层厚度为0.8 μm时,可见光透过率下降到60%。电学测量结果表明,随着膜层厚度的增加,薄膜电阻率逐渐减小。膜层厚度为0.2 μm时,电阻率为9×10^-4 Ω·cm, 膜层厚度为0.8 μm时,电阻率为5.5×10^-4 Ω·cm。     

高功率微波器件2.5维通用粒子模拟软件——尤普

 利用体积加权宏粒子模型,考虑了阴极形状的爆炸电子发射模型、散度校正完全匹配层边界等新型和改进型电磁粒子模拟算法模型,提高了粒子模拟算法的计算精度,并有效降低数值噪声。在此基础上开发出2.5维全电磁通用粒子模拟软件——尤普,可在x-y,z-r和r-φ3种坐标系下应用于高功率微波器件的2.5维数值模拟研究和结构设计。对相对论磁控管、磁绝缘线振荡器和虚阴极振荡器等高功率微波器件的模拟结果表明：尤普软件得到了正确的物理图像和物理规律。     

水窗波段反射式偏振光学元件的设计和制作

水窗波段是软X射线进行生物活细胞显微成像的最佳波段,因此对于水窗波段偏振光学元件的研究有着非常重要的意义。用菲涅耳公式计算出在水窗波段内不同材料组合对应不同波长的最大反射率,模拟分析了多层膜周期和表界面粗糙度对多层膜偏振光学元件性能的影响。用超高真空磁控溅射镀膜设备,制作出2．40nm、3．00nm和4．30nm波长处W／B4C多层膜偏振元件,并用X射线衍射仪对元件的周期厚度进行了测量,得到的测量结果与设计值偏差很小,可以进行实际应用。为水窗波段反射式偏振光学元件的研究提供了理论依据,同时也为相应偏振光学元件的制备确定了合适的工艺参量。     

反应磁控溅射法制备的氮掺杂TiO2光催化膜的氮化学态和光催化活性

 采用中频交流磁控溅射法,以O2/N2混和气为反应气体,在铝片上沉积了氮掺杂TiO2膜. 利用原子力显微镜、紫外-可见光谱、X射线衍射和X射线光电子能谱等手段研究了掺杂膜的表面形貌、光吸收性能、物相组成以及膜样品中氮的化学态,并通过苯甲酰胺的光催化降解实验对光催化剂活性进行了评价. 结果表明,所得掺杂膜仅能够被紫外光所激发,反应气的配比对膜的形貌和TiO2的锐钛矿/金红石相比率均有影响,而氮在膜中以掺杂N3-、表面吸附N2和固溶N2的形式存在. 随着N3-掺入量的增加,掺杂膜的光催化活性显著提高,在反应气体组成为N2/(O2+N2)=80%(体积分数)时,掺杂N3-量为0.594%,苯甲酰胺光催化降解效果最好,其活性约为纯TiO2膜的1.5倍.     

Growth,electrical and optical behaviour of nanocrystalline Ag2Cu2O3 films produced by RF magnetron sputtering

Thin films of Ag₂Cu₂O₃ were formed on glass substrates by RF magnetron sputtering technique under different oxygen partial pressures in the range 5 × 10^‐3 – 8 × 10^‐2 Pa using mosaic target of Ag₇₀Cu₃₀. The influence of oxygen partial pressure on the core level binding energies, crystallographic structure, and electrical and optical properties of the deposited films was studied. The atomic ratio of copper to silver in the films was 0.302. The oxygen content was in correlation with the oxygen partial pressure maintained during the growth of the films. The films formed at oxygen partial pressures < 2 × 10^‐2 Pa was mixed phase of Ag₂Cu₂O₃ and Ag. The films deposited at 2 × 10^‐2 Pa were single phase of Ag₂Cu₂O₃. The crystallite size of the films formed at 2 × 10^‐2 Pa was 12 nm, while those films annealed at 473 K was 16 nm. The nanocrystalline Ag₂Cu₂O₃ films formed at oxygen partial pressure of 2 × 10^‐2 Pa showed electrical resistivity of 8.2 Ωcm and optical band gap of 1.95 eV. (© 2011 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)