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- trititanate nanotube 钛酸纳米管
- The nanotube will form the insulating core of the nanoelectrode. 纳米管将成为纳米电极的绝缘核心。
- Then a method to make the carbon nanotube disperse is found. 并找到了使其均匀分散的一种方法。
- This can be achieved by simply squashing the nanotube. 这种转变可以通过对碳纳米管施加单轴应力使之变形而实现。
- In 1991, carbon nanotube (CNT) was first reported in Nature by Iijima. 1991 年,日本电镜专家 Iijima 在制取 C60的残余物中,发现一种结构独特的管状单质炭,即碳纳米管(carbon nanotube,CNT)。
- The titania nanotube was characterized by XRD,TEM,BET,TG-DSC and Uv-vis. 用XRD、TEM、BET、TG-DSC、Uv-vis等方法对TiO2纳米管的形貌、成分和性能进行了表征。
- Nanotube researchers are also continually breaking new ground.Prabhakar R. 奈米管研究人员也在持续开辟新天地。
- Water soluble multiwall carbon nanotube has good dispersiveness and stability. 采用柠檬酸钠还原氯金酸制备了金水溶胶,研究了影响金纳米粒子的粒径的相关因素。
- Watson Research Center,built the world's first logic circuit out of a single long carbon molecule called a nanotube. 该公司托马斯·沃森研究中心的物理学家造出全世界第一个以纳米管(一个长长的碳分子)为原料的逻辑电路。
- Nanotube bio-technology has become the frontier and hot issue in nano-technology. 纳米管生物技术已经成为纳米技术领域的前沿和热点。
- Past carbon nanotube transistors were typically constructed atop silicon composites common in the electronics industry. 奈米碳管电晶体以往通常在电子工业常用的矽复合材料上面制作。
- To control the electron beam emitted from the carbon nanotube (CNT) cathode, four different electron chunnels are designed. 摘要为了控制碳纳米管阴极发射电子束的形状,设计了4种电子通道来控制电子束轨迹。
- Carbon nanotube (CNT) cathodes with different CNT contents were prepared by screen-printing method. 采用丝网印刷法制备了不同碳纳米管含量的冷阴极。
- The friction force between Si3N4 probe of AFM with WS2 nanotube is lower than that with MoS2 powder. 在室温大气下干摩擦时原子力显微镜的S3iN4探针与WS2纳米管之间的摩擦系数小于与MoS2粉末的摩擦系数。
- Aerospace: Electrically active, thermally conductive polymers, nanotube structural enhanced composites; etc. 航空:电活性导热聚合物,纳米管结构改进的复合材料,等;
- This text describe the method of getting free-substrate aligned array carbon nanotube. 介绍了一种得到无基底阵列式排列碳纳米管膜的方法。
- Carbon nanotube electrodes exhibit unique pore structure and high utilization efficiency of specific surface areas. 碳纳米管电极具有独特的孔隙结构和高比表面积利用率;
- Screen printing technology has been improved to fabricate large area, carbon nanotube (CNT) field emission cathode. 摘要碳纳米管(CNT)是理想的场发射阴极材料。
- In this paper, we research overheated carbon source application for carbon nanotube growth. 摘要:本文为过热碳原料应用于奈米碳管成长之研究。
- A carbon nanotube cathode with high emission current has been fabricated with the screen printing method. 研究了利用丝网印刷法制备碳纳米管阴极,以获取很大的发射电流。
