The metal infiltrating layer and the carbon nano tube array are reacted to form metallic carbide.
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。
Using the natural nano tube chrysotile asbestos as template for assembling semiconductor quantum wires is a promising method.
以天然纳米管——纤蛇纹石为模板进行半导体量子线的组装是一种很有前途的方法。
The invention provides a field effect transistor device using a carbon nano tube as an electrode and a preparation method thereof.
本发明提供一种以碳纳米管为电极的场效应晶体管器件及其制备方法。
The invention relates to a carbon nano tube in an oriented array, a carbon-coated cobalt nano particle compound and a preparation method thereof.
本发明涉及一种定向排列碳纳米管与碳包覆钴纳米颗粒复合物及其制备方法。
The screen printed carbon nano tube field emission display device fabrication process has been set up and a 2. 2 inch CNT-FED device has been obtained.
建立了一整套较为完善的碳纳米管场发射冷阴极印刷制备及场发射显示器件制备的工艺流程,并成功获得2.2英寸碳纳米管动态显示原理型样机。
The present invention discloses a carbon nano tube material covered with metal oxide, belonging to the field of inorganic nano material preparation process technology.
本发明公开了一种金属氧化物纳米管包覆碳纳米管的材料,属于无机纳米材料制备工艺技术领域。
The sounding device effectively improves the electric connectivity between the carbon nano tube structure and the electrodes so that the stability of the sounding device is more favorable.
该发声装置有效提升了碳纳米管结构与电极之间的电连接性,使得该发声装置的稳定性较好。
The carbon nano tube transistor device has very high application value in terms of ultrasensitive environmental stimuli response devices, ultrasensitive solar stimuli response devices and the like.
本发明提供的碳纳米管晶体管器件在超灵敏环境刺激响应、超灵敏太阳能刺激响应器件等方面均具有很高的应用价值。
The invention solves the problems that complete and continuous plating is difficult to form on the carbon nano tube surface and the plating thickness is not easy to control in the tradition technique.
本发明解决了传统工艺在碳纳米管表面难以形成完整连续镀层及镀层厚度不易控制的问题。
The intrinsic ballistic transportation of electrons in nano-tube makes it possible for antennas consisting of nano-tube array to radiate with higher efficiency.
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。
Research progress in PEMFC including catalyze, electrode, proton exchange membrane, electrolyte, bipolar board and carbon nano-tube were described.
综述了包括催化剂、电极、质子交换膜、电解质、双极板和碳纳米管在内的质子交换膜燃料电池的研究进展。
The field emission body of Nano carbon tube can prevent short circuit from occurring between grid and Nano carbon tube.
该碳纳米管场发射体可防止栅极与碳纳米管之间发生短路。
The invention provides a method for preparing a carbon nano-tube modified in-situ polymerization based on plasma initiation.
本发明提供一种基于等离子体改性引发原位聚合修饰碳纳米管的制备方法。
The prepared carbon nano-tube microcapsule is convenient for use, carrying and transportation, is poisonless and harmless, and does not pollute the environment.
制得的碳纳米管微胶囊使用和携带运输方便,无毒无害,不污染环境。
The invention discloses a method for preparing specially-shaped titanium dioxide nano-tube films with changeable pipe diameter along the axial direction by an anode oxidation method.
本发明公开一种采用了阳极氧化法制备其管径沿轴向有变化的特殊形貌二氧化钛纳米管薄膜方法。
When necessary, the carbon nano-tube microcapsule can be disposed simply by ultrasonic, thus being uniformly dispersed in the organic solvent.
在需要时将碳纳米管微胶囊通过简单的超声处理即可均匀分散于有机溶剂中。
The method can be used to prepare stratified nodular or condyle-shaped or torose titanium dioxide nano-tube films; and the internal surface of the tube between two adjacent nodes is curved.
采用本发明的方法可制备出分层节状或骨节状或藕节状的二氧化钛纳米管薄膜,且纳米管中的两个相邻的节之间的管内表面呈曲线状。
The results indicate that the carbon nano-tube improves the corrosion resistance of the compound coating.
结果表明,碳纳米管提高了复合镀层耐蚀性。
The polyimide nano-composite films with different concentrations of carbon nano-tube were prepared by means of ultrasonic blending and in- situ polymerization.
以超声分散塬位聚合的方法制备出不同碳纳米管含量的碳纳米管,聚酰亚胺功能复合材料膜。
It has simple technique and prepares high-performance composite with the help of excellent properties of nano carbon tube.
本发明的工艺简单,借助纳米碳管的优异特性,制备出高性能的镍或镍基合金复合材料。
The ZnO nanorod arrays grow firstly on FTO glass through a hydrothermal process and then act as templates for the fabrication of rod-in-tube nano-architectures during ultrasonication.
氧化锌纳米棒阵列最初是在FTO玻璃上通过水热法制备出基体后通过超声波生长出棒中筒纳米结构。
The invention relates to a method of producing carbon nano-tube yarn, comprising the following steps: providing a plurality of carbon nano-tube arrays;
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;
Vertically aligned hierarchical ZnO rod-in-tube nano-architecture arrays are produced via a two-step process including an initial hydrothermal reaction followed by ultrasonication growth.
垂直排列的氧化锌棒中筒纳米结构阵列是通过两个步骤制备而得的,其中包括一个初始水热反应以及超声增长反应。
Vertically aligned hierarchical ZnO rod-in-tube nano-architecture arrays are produced via a two-step process including an initial hydrothermal reaction followed by ultrasonication growth.
垂直排列的氧化锌棒中筒纳米结构阵列是通过两个步骤制备而得的,其中包括一个初始水热反应以及超声增长反应。
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