nanotube
美 [neɪnoʊtjʊb] 
英 [neɪnəʊtjʊb]
词形变化
复数:nanotubes
英汉解释
英英解释
例句
But if you look coming out of the middle of it, okay, you see here, you see that little white sort of thread coming out, that's a nanotube.
如果你看着从中间伸出来的这个,你看这里,你可以看到一个很小的白色丝状物伸出来,那就是碳纳米管。
Consider, for a moment, the display near the top of this article of a nanotube simulation (see Figure 1).
可以考虑一下,在本文开头附近所显示的关于纳米管模拟的内容(请参见图1)。
The scientists can control nanotube density by varying how much iron they employ within the ferritin.
科学家可改变铁蛋白中的铁含量,进而控制奈米管的密度。
A simple test system has been prepared to test the carbon nanotube field effect transistors, base on the electrical properties.
根据对碳纳米管场效应晶体管的电学特性的研究,搭建出一套简单的测试系统,对制备的器件进行了初步测试。
To " carbon nanotubes (carbon nanotube) " and " Graphene (graphene) " Conference site is always filled with devices.
以“碳纳米管(carbonnanotube)”和“石墨烯(graphene)”为主题的会议现场总是挤满了器件技术人员。
The sensor may be formed by attaching at least two electrodes to the polymer-carbon nanotube composite film.
可通过固定至少两个电极到聚合物-碳纳米管复合材料膜上,从而形成传感器。
Whether carbon nanotube-based solar cells will come online in the near future (or ever, for that matter) remains to be seen.
基于碳纳米管的太阳能电池是否会在不久的将来(甚至是否会)面世,还有待观察。
Alternatively, coating the wafer with a nanotube-containing solvent by spinning the disk like a phonograph record also had its problems.
而要是使晶圆像留声机唱盘那样旋转,让含有奈米碳管的溶剂附著在晶圆表面,也还是有问题。
Although some nanotube devices have been fabricated, it is in a debate about the transport properties as well as its physical mechanism.
此外,尽管已制备成一些基于纳米管的电子器件,其输运性质及其物理机理仍然是个有争论的问题。
The elevator would be constructed by a satellite, launched via rocket, carrying the carbon nanotube ribbon on a spool and lowering it down.
电梯将由一个经由火箭发射的卫星来建造,它携带着缠绕在一根轴上的单壁碳纳米管,并将之放下来。
The control structure includes a control electrode and a release electrode, disposed on opposite sides of the nanotube channel element.
该控制结构包括置于该纳米管通道元件的相对两侧的一个控制电极和一个释放电极。
These successive processes made outer tube growth and finally result in a stable closed single-walled carbon nanotube with a larger radius.
我们认为这也是一种可能的,特别是口径很小的碳纳米管的生长机制。
The invention discloses cylindrical and barrel-shaped titanium dioxide nanotube arrays and a preparation method and application thereof.
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 a dispersant, a carbon nanotube composition and a method for forming the carbon nanotube composition.
本发明公开了一种分散剂、一种碳纳米管组合物和形成该碳纳米管组合物的方法。
It was a new aspect of exploring carbon nanotube application that carbon nanotubes were regarded as a novel electrode material.
把碳纳米管作为一种新型的电极材料是开发碳纳米管应用的一个新的方向。
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的逻辑电路(一个长长的碳分子奈米管。
The researchers wrapped carbon nanotube sensors in DNA, and the coated sensors have been shown to be safe for living cells.
研究者们用DNA把碳纳米管传感器包覆起来,这些被包覆的传感器对于活体细胞是安全的。
The bond length of the carbon nanotube would increase after phase transition, and we use a elastic model to explain this physics phenomenon.
同时我们的计算结果表明碳管键长在相变后会突然变长,我们采用了一个简单的弹性模型来解释这一物理现象。
Furthermore, unlike today's batteries, the carbon nanotube variety would not contain any toxic metals.
此外,不像现在的电池,这些碳毫微管的种类将不会包含任何有毒金属。
Another method in common use would be dropped ferritin reagent as catalyst on the substrate, and move in the furnace for nanotube growth.
另一种常用催化剂是滴铁蛋白试剂于试片,然后送入高温炉生长碳管。
Although often associated with theoretical concepts, carbon nanotube enhanced materials have moved far beyond laboratory experiments.
尽管经常使人联想到理论性的概念,碳纳米管增强材料的发展已经走出了实验室阶段。
As the heat feeds back to the fuel coating, a thermal wave is created that is guided along the nanotube.
随着纳米管里的热量反馈到燃料涂层上,一种沿着纳米管移动的热波就产生了。
In this case, a carbon nanotube is basically a rolled up sheet of graphene the size of a DNA molecule.
这里的碳纳米管基本上就是一层卷成筒的石墨,其大小相当于一个DNA分子。
Sonication cutting process was applied to shorten the outgrown carbon nanotubes to get aligned carbon nanotube film.
采用了超声的方法来切短露头于AAO范本的纳米碳管,增加纳米碳管膜的定向性。
The team envisions such nanotube-based power being available to consumers in the next five years.
研究小组猜想毫微管动力将在将来的五年对消费者可用。
While carbon nanotube projects are still in the early phases of planning, progress in the other priority areas is well under way.
尽管碳纳米管项目仍然处于规划的早期,其他优先领域也正在取得进展。
Chris Li, an associate professor of materials science and engineering at Drexel University, specializes in nanotube assembly structures.
ChrisLi是德雷塞尔大学的材料科学和工程学副教授,也是纳米管组装结构的专家。
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。
They found that protons do flow steadily across the nanotube, carrying an electric current.
他们发现,质子流稳定通过碳纳米管,形成电流。
Field emission devices comprising carbon nanotube mats which have been treated with laser or plasma are provided.
一种提供包括利用激光或等离子体处理过的碳纳米管垫的场发射装置。
FTIR and N2 adsorption results showed that the decorated carbon nanotube was of carboxylation , while its specific surface area increased.
FTIR和N2吸附结果表明,硝化后,在碳纳米管表面羧基化的同时比表面积增加;
Heat from the fuel goes into the nanotube, where it travels thousands of times faster than in the fuel itself.
燃料产生的热进入纳米管,在那里,它的传播速度变为燃料原来速度的几千倍。
The critical buckling torque of the multi-wall carbon nanotube is finally estimated by numerical calculation.
最后,通过数值计算估计了多壁碳纳米管的临界屈曲扭矩。
The wear mechanism of the nanotube layers involved abrasive wear, fatigue wear, adhesive wear and oxidative wear.
纳米管层的磨损机理主要为磨粒磨损、疲劳磨损、粘着磨损和氧化腐蚀磨损。
Carbon nanotube cathodes are formed by screen-printing, and dielectric layer or gate are no longer needed.
阴极上只需要丝印碳纳米管,无需制作介质层和栅极,解决了场致发射源被破坏的问题。
The column symmetry of transverse continuum potential well is independent of the nanotube structure.
沟道连续势阱的柱状对称性与碳纳米管结构的变化无关。
The theoretical basis, typical properties and fabrication methods of carbon nanotube detectors are described.
对用碳纳米管阵列制作红外探头的理论基础、典型特性和技术状况均进行了讨论。
For the first time, a team of MIT chemical engineers has observed single ions marching through a tiny carbon-nanotube channel.
这是麻省理工学院的化学工程师团队第一次观察到单离子通过一个微小的碳纳米管渠道进行运输。
As an ideal electromagnetic element, the carbon nanotube ring (CNTR) has attracted much interest ever since its discovery.
作为理想的电磁元器件,碳纳米管环引起了人们的特别的注意。
Wear depth of specimens were mainly related with change of hardness fore-and-aft heat treatment and nanotube diameters of specimen surfaces.
试样的磨损深度主要与热处理前后试样的表面硬度变化以及试样表面的纳米管径有关。
