利用碳纳米管薄膜作为阴极材料,给出并分析了碳纳米管薄膜阴极的场致发射特性。
With the carbon nanotube film as cathode materials, the field emission characteristics of the carbon nanotube film cathode are presented and analyzed.
目前阴极的实现方案很多,其中在材料基底上敷膜的薄膜阴极的方法既可利用基底本身的物理、结构特性,又可利用膜材料的物理化学性能,是一种有效的提高阴极性能的方法。
People have used many methods to make the cathode, in recent years, the film-cathode method that coated with the films of other materials on the substr.
采用过滤阴极真空电弧技术并施加一定的衬底负偏压,在P(100)单晶硅片上制备出四面体非晶碳薄膜。
Tetrahedral amorphous carbon (ta-C) films have been deposited on P-type (100) polished c-silicon wafer with different substrate negative bias by filtered cathodic vacuum arc technology.
从阴极膜、固体电解质膜、阳极膜三个方面概述了近年来薄膜锂电池关键材料的研究进展。
The research progress in key materials of thin-film lithium battery in recent years was summarized in three aspects: cathode film, solid-state electrolyte film and anode film.
利用图形化的DLC薄膜作为阴极,设计和制作了矩阵选址单色场发射显示器(FED)样管。
On the base of fabrication of the patterned DLC thin film cathode, a ki nd of matrix -addressed diode FED prototype is designed and packaged.
讨论了在阴极发射体阵列上淀积纳米硅薄膜,提高器件灵敏度的设想。
We propose that the cathode emitter arrays covered with nano crystalline silicon film may considerably enhance the sensitivity of the sensor.
分析结果表明,宽带隙平面薄膜结构用作场致电子发射阴极,具有发射电压的阈值低,发射电子的能量分布范围小等优点。
The study result shows that the planar film structure is conformable for FEE cathode, because it has low voltage threshold and small range of energy distribution of the emitted electrons.
用一个冷阴极离子枪产生的氧离子轰击淀积过程中的薄膜表面。
Oxygen ions from a cold cathode ion-gun have been used tor bombarding the growing thin films.
研究纳米硅薄膜作为冷阴极的真空电子场发射特性。
Efficient field emission was observed from si nano-crystalline film.
利用脉冲激光烧蚀技术在硅衬底上制备了类石墨薄膜,以该薄膜为阴极进行了场致电子发射实验。
The graphite-like film was prepared on silicon substrate by pulsed laser ablation, and the field electron emission from the film was measured.
研制了一套过滤式阴极电弧沉积设备,并利用该设备成功地获得了类金刚石薄膜。
The instrument of filtered cathode arc deposition is successfully built in our laboratory. Diamond-like carbon film is maded.
采用过滤阴极电弧沉积方法有可能制成无宏观粒子的类金刚石薄膜。
It is possible to deposit DLC (Diamond-Like Carbon) without MP by filtered vacuum arc deposition.
采用过滤阴极电弧沉积方法有可能制成无宏观粒子的类金刚石薄膜。
It is possible to deposit DLC (Diamond-Like Carbon) without MP by filtered vacuum arc deposition.
应用推荐