碳纳米管阵列用于行波管冷阴极具有显著的优越性。
Carbon nanotube (CNT) arrays have prominent advantages for travelling wave tube (TWT) as cold cathode application.
本文研究碳纳米管阵列的介电谱函数与吸收电磁波的特性。
This paper investigates the dielectric spectral function and the feature of absorbing electromagnetic wave in carbon nanotube arrays.
所述金属浸润层与碳纳米管阵列之间反应形成金属碳化物。
The metal infiltrating layer and the carbon nano tube array are reacted to form metallic carbide.
纳米管阵列排列整齐,长度均一,彼此相互平行,管径均匀。
The PANINT arrays were ordered, they have an uniform diameter, and paralleled each other.
在此基础上,讨论了碳纳米管阵列的生长机理和选择性生长现象。
On the basis, we investigate the growth mechanism of the nanotubes and the self-selective growth method.
本发明公开了圆柱形和圆筒形二氧化钛纳米管阵列及其制备方法与应用。
The invention discloses cylindrical and barrel-shaped titanium dioxide nanotube arrays and a preparation method and application thereof.
该制备方法简单易行,所制备的碳纳米管阵列密度高且均匀地定向排列。
The preparation method is simple for practice, and the prepared carbon nanotube array has high density and is evenly and directionally arranged.
热处理使无定型的氧化钛纳米管阵列结晶,有助于提高其与钛基底的结合强度。
The heat treatment caused crystallization of the amorphous titania nanotube arrays, it contribute to bonding strength with the substrate of titanium.
采用反粘的方法制备了碳纳米管阵列底部构成的发射体,提高了其表面均匀性;
We have fabricated a diode emission device with this method. Another kind of conventional CNT cathode is the arrays directly grown on substrate.
该锂离子电池负极的制备方法,包括以下步骤:提供一碳纳米管阵列形成于一基 底;
The preparation method of the lithium ion battery cathode comprises the following steps: providing a carbon nanotube array to form a substrate;
由于纳米管内电子运动固有的弹道输运效应,使得纳米管阵列天线具有辐射效率高的优点。
The intrinsic ballistic transportation of electrons in nano-tube makes it possible for antennas consisting of nano-tube array to radiate with higher efficiency.
该二氧化钛纳米管阵列可以作为染料敏化太阳能电池的工作电极和污水处理等过程中的基质材料。
The titanium dioxide nanotube arrays can be used as the host materials of the working electrode of dye-sensitized solar cells, the wastewater treatment process, and the like.
本发明涉及一种碳纳米管阵列制作方法,其步骤包括:提供一基底,在该基底上形成一遮挡层;
The process of making carbon nanotube array includes the following steps: providing one substrate and forming one mask layer on the substrate;
这里,提出三步纯化法,去除了碳纳米管阵列顶端的催化剂颗粒,极大地增强了碳纳米管的表面场强。
The catalyst grains on the top of CNTs is removed by using three step purified method in this paper, the electric field intensity is enhanced.
经过几年的努力,目前主要在超顺排碳纳米管阵列的可控制生长、碳纳米管生长动力学、碳纳米管成核机理等方面取得一些阶段性成果。
After several years of efforts, we have made some progress in the controlled synthesis of super-aligned CNT arrays, the growth kinetics, and the nucleation mechanisms of CNTs.
实验证实浓度为2 5%的碳纳米管浆料制得的阴极有最佳的阵列密度。
The test result proves that the CNT cathode with optimum array density is fabricated by the CNT paste with a density of 2.5 %.
介绍了一种得到无基底阵列式排列碳纳米管膜的方法。
This text describe the method of getting free-substrate aligned array carbon nanotube.
但是碳纳米管生长时必须在耐高温等刚性基底上沉积,严重限制了阵列式碳纳米管的应用范围。
But it greatly limit their application ranges that carbon nanotubes must deposit on heat-resistant rigid substrate.
实验证实浓度为2.5%的碳纳米管浆料制得的阴极有最佳的阵列密度。
The test result proves that the CNT cathode. With optimum array density was fabricated by the CNT paste with a density of 2.5%.
介绍了一种廉价、简单易行的将阵列式排列的碳纳米管从石英基底上完整地剥离下来,从而得到无基底阵列式碳纳米管膜的方法。
A economical and easy-operated method were introduced, by which free-substrate aligned array carbon nanotubemembrances can be got from quartz substrates.
本文通过模拟计算找出了最佳碳纳米管场发射阴极阵列密度,并通过实验进行了验证。
The optimum density of CNT cathode arrays was found by simulation, carried out by experiments.
本发明涉及一种碳纳米管纱的制备方法,包括以下步骤:提供多个碳纳 米管阵列;
The invention relates to a method of producing carbon nano-tube yarn, comprising the following steps: providing a plurality of carbon nano-tube arrays;
在阴极玻璃面板上有阴极导电层、碳纳米管以及倒置盆地型阴极阵列发 射结构;
There are anode conductive layer and phosphor layers prepared on the conductive layer on anode glass faceplate.
在阴极玻璃面板上有阴极导电层、碳纳米管以及倒置盆地型阴极阵列发 射结构;
There are anode conductive layer and phosphor layers prepared on the conductive layer on anode glass faceplate.
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