The methods reduce or prevent plasma-induced charge damage to the substrates from the deposition of the amorphous carbon films.
这些方法减少或防止等离子体感应电荷由于无定形碳薄膜的沉积而损坏衬底。
We have developed a new process for building up thick and stable amorphous carbon films with high hardness and low internal stress.
本文研究了一种制备高硬度、低内应力、厚度高且热稳定性良好的非晶碳薄膜的方法。
Using an alternating high- and low-bias voltage, we have formed hydrogen-free multilayers of hard and soft diamond-like carbon films.
本文采用交替施加高偏压和低偏压的方法,合成出了具有软膜和硬膜结构的无氢类金刚石多层膜。
The carbon in the film increases with increasing immersion time and can be thought to be from seawater not from residual carbon films.
膜中碳量随暴露时间延长而增加,因此可以认为碳来源于海水而不是来自加工残碳膜。
Using spectroscopic ellipsometry, the influence of thermal annealing on optical properties of the plasma-deposited hydrogenated amorphous carbon films is investigated.
用椭圆偏振光谱法研究了热处理对射频辉光放电淀积的氢化非晶碳膜光学性质的影响。
In this dissertation, extensive researches on the electrical and field emission properties of nano-carbon films prepared by hot filament chemical vapor deposition (HFCVD).
本文利用热灯丝化学气相沉积法(HFCVD)制备了纳米量级的碳薄膜材料,对它的电学性质及场发射性质进行了详细的研究。
Process review shows that the substrate material is the key factor for the carbon films deposition, and the parameters of ion energy, pressure and methane ratio are impotent also.
工艺研究结果表明,衬底材料对制备该新型纳米碳膜具有关键作用,离子能量、工作压力及气氛等工艺因素也具有重要作用。
Using TEM, XPS and Raman spectroscopy, we analysed the microstructure of the DLC films. It was found that DLC films were mixed carbon films containing diamond and other carbon phase.
利用透射电镜、X射线光电子能谱及拉曼光谱等分析手段对该膜进行了显微结构分析,发现类金刚石膜是含有金刚石及其它碳相的混合碳膜。
This paper reports the properties of the hydrogenated amorphous carbon films prepared by glow discharge decomposition of hydrocarbon and the applications to metals surface protection.
本文报导由碳氢气体的辉光放电分解而制备的氢化非晶碳膜的特性及其在金属表面防护上的应用。
Smoothing, dense and uniform nano crystalline diamond like carbon films are prepared by using electron cyclotron resonance (ECR) microwave acetone plasma chemical vapor deposition (CVD) method.
利用电子回旋共振(ECR)微波等离子体辅助化学气相沉积技术、工作气氛为丙酮,在光学玻璃衬底上得到了光滑、致密、均匀的类金刚石薄膜。
Another type of fossilization, known as carbonization, occurs when soft tissues are preserved as thin films of carbon.
叫做碳化的另一种石化类型,发生在软组织以碳薄膜形式被保存下来的过程中。
We offer a number cast vinyl wrap films that include textures such as Carbon Fiber and Black Mamba which are mostly used for car wraps, architectural and retail signage.
他补充道:“我们提供了大量的抛光乙烯基包装薄膜,包括有纹理的材质,例如炭纤维和黑曼巴,这些大部分都是用在汽车包装,建筑和零售店铺标识上。
Carbon nanotube films were synthesized on Ni substrate by microwave plasma chemical vapor deposition at low temperature.
以镍片为基板材料,利用微波等离子体化学气相沉积法在低温条件下合成了纳米碳管膜。
The failure behavior of field emission devices based on printed carbon nanotube (CNT) films was investigated.
对基于印刷碳纳米管(CNT)薄膜的场发射器件的失效行为进行了研究。
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.
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。
Effects of the sample-anode distance(the interval between sample and anode) and effective emission area on the field emission characteristics of carbon nanotube films were discussed.
讨论了薄膜与阳极间隔以及有效发射面积对碳纳米管薄膜场发射性能的影响。
NEMD calculations are employed for the thermal conductivity of single crystal carbon and germanium films in normal direction.
采用非平衡分子动力学(NEMD)方法分别模拟碳和锗纳米薄膜的法向热导率。
First, electrical properties of carbon nanotube films have been studied theoretically.
本文首先讨论了碳纳米管膜电学性质的理论研究。
Thick diamond films were deposited by DC plasma jet using methane as carbon source.
以甲烷为碳源气体,用直流等离子射流法制备了金刚石膜。
The fabrication of conductive polymer films based on carbon nanotubes and the influence on their constitution and treatment conditions on the conductivity were investigated.
研究了以一种碳纳米管为填充物的高分子导电膜的制备及导电膜的组份和处理条件对其导电性的影响。
Electronic field emission from hydrogen plasma processed (HPP) multiwall carbon nanotubes (MWNT) films have been investigated.
研究了经氢等离子体处理后多壁碳纳米管的场发射性能。
Molecular dynamics simulations are performed to study the growth of diamond_like carbon (DLC) films on the atomic scale.
利用分子动力学模拟方法,从原子尺度上研究了类金刚石(DLC)薄膜生长过程。
The surface energy of DLC films is dependent on the carbon bonds and surface roughness.
DLC薄膜表面能高低取决于表面碳碳键与粗糙度的变化。
The aluminum and carbon clusters impacting on gold thin films have been studied by molecular dynamics (MD) simulation.
本文基于分子动力学模拟研究铝原子簇和碳原子簇轰击金薄膜的碰撞级联过程。
Scientists recorded their heart rate, oxygen intake and carbon dioxide output - and discovered the number of calories used increased by on average a third during the films.
科学家记录了他们的心跳、摄氧量和二氧化碳排出量,发现观看恐怖片时,受访者卡路里消耗平均增加了三分之一。
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。
It is indicated that the voltage was induced in the films when the rotational electrolytes flow on the carbon nanotube films surface due to electronic friction and electron drag effect.
结果发现,当转动电解液从碳纳米管膜的表面流过时,也会在膜的两端诱导出电势,该电势的大小与电解液的种类、转速、质量浓度和温度等有关。
In contrast with the inorganic aerogel films, a new possible method is put forward to produce the carbon aerogel films.
对比无机气凝胶薄膜,提出了新的可能的制备方法。
The amorphous carbon film has interesting properties which are close to those of diamond. It may be good used for the antiabrasion layers and antireflexions films of the infrared devices.
非晶态碳膜具有许多接近于金刚石的、令人感兴趣的性能,能很好地用作红外零件上的保护膜和增透膜。
The hydrogen-free diamond-like carbon(DLC) films were deposited on substrates of Si and M2 high-speed steel using a new mid-frequency dual-magnetron sputtering.
利用新型中频对靶磁控溅射在硅和M2高速钢基体上沉积了一系列无氢含铬类金刚石膜。
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