1) mid-frequency AC magnetron sputtering
中频交流磁控溅射
1.
Ag/TiO2 composite films were successfully prepared using a mid-frequency AC magnetron sputtering technique with pure Ti and Ag targets to increase photocatalytic efficiencies of TiO2 films.
为了提高TiO2薄膜的光催化效率,利用中频交流磁控溅射技术,采用Ti和Ag金属靶制备了Ag/TiO2复合薄膜。
2) mid-frequency alternative reactive magnetron sputtering
中频交流反应磁控溅射
1.
N-doped TiO2 films were prepared by mid-frequency alternative reactive magnetron sputtering.
用中频交流反应磁控溅射方法制备了N掺杂的TiO2薄膜。
3) Mid-frequency direct current magnetron sputtering
中频直流反应磁控溅射
4) medium frequency magnetron sputtering
中频磁控溅射
1.
Al containing diamond-like carbon(Al-DLC) thin films were deposited on Si substrate by medium frequency magnetron sputtering.
采用中频磁控溅射技术在单晶硅表面制备含铝类金刚石(Al-DLC)薄膜,利用原子力显微镜、X射线光电子能谱仪、红外光谱仪、纳米压痕仪和微摩擦磨损试验机等考察薄膜表面形貌、结构及其摩擦磨损性能。
2.
Er~(3+)_- doped Al_2O_3 films were fabricated by medium frequency magnetron sputtering, strong photoluminescence at 1535 nm was detected at the room temperature.
利用中频磁控溅射方法沉积制备了掺铒Al2O3薄膜,室温下测量了薄膜在1535nm波长处的光致发光光谱和抽运功率、掺铒浓度、退火温度对光致发光光谱强度的影响。
3.
This thesis presents investigations on the structure and properties of A1N films and nc-AlN/a-Si3N4 prepared by medium frequency magnetron sputtering.
本工作研究了中频磁控溅射制备AIN薄膜和nc-AIN/a-Si_3N_4复合薄膜及其结构与特性,并且研究了Mn~+离子注入AIN薄膜的电学和磁学性质。
5) medium-frequency magnetron sputtering
中频磁控溅射
1.
The complex deposited process which fitted medium-frequency magnetron sputtering together with multi-arc ion plating,was utilized to prepare the MoS2 /Zr composite coating on the surface of cemented carbides YT14.
采用新型中频磁控溅射技术及多弧离子镀相结合的复合镀膜工艺,在硬质合金YT14基体上制备了MoS2/Zr复合薄膜。
6) mid-frequency magnetron sputtering
中频磁控溅射
1.
Using a Zn target with 2% Al,ZnO:Al(ZAO) thin films were deposited on glass substrate by mid-frequency magnetron sputtering.
采用中频磁控溅射工艺,以2%的Al掺杂的Zn(纯度99。
2.
Diamond-like carbon (DLC) thin films were deposited onto Si (100) and high speed steel substrates by mid-frequency magnetron sputtering system (SP0806AS,Beijing Power tech Co.
采用SP0806AS中频磁控溅射镀膜机,在硅(100)和高速钢基体上,采用双石墨靶在不同功率下沉积了类金刚石薄膜。
补充资料:磁控溅射
分子式:
CAS号:
性质:用一个环形永久磁体在乎板形靶上产生环形磁场,在磁场作用下,电子被约束在一个环状空间内,形成高密度的等离子环。在等离子环内,电子不断地使Ar原子变成Ar离子,Ar离子被加速后打向靶表面,把靶内的原子溅射出来,沉积在基片上形成薄膜。若靶材为导体,溅射电源可用直流或射频电源,如靶材是绝缘体,则必须用射频电源。用多源共溅射加后处理法可制备双面薄膜。将基片放置在靶中心线上,称为正轴溅射,基片放在靶轴线外;称为偏轴溅射。磁控溅射是广泛采用的制膜方法。
CAS号:
性质:用一个环形永久磁体在乎板形靶上产生环形磁场,在磁场作用下,电子被约束在一个环状空间内,形成高密度的等离子环。在等离子环内,电子不断地使Ar原子变成Ar离子,Ar离子被加速后打向靶表面,把靶内的原子溅射出来,沉积在基片上形成薄膜。若靶材为导体,溅射电源可用直流或射频电源,如靶材是绝缘体,则必须用射频电源。用多源共溅射加后处理法可制备双面薄膜。将基片放置在靶中心线上,称为正轴溅射,基片放在靶轴线外;称为偏轴溅射。磁控溅射是广泛采用的制膜方法。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条