目前,应用此模板已合成出多种金属纳米阵列。
本研究结果为模板合成有序纳米阵列结构提供了参考。
The results provide a reference for template synthesis of ordered nanometer array structure.
由镍制得的纳米阵列有许多优良的性质,具有广泛的应用价值和前景。
Ni nanoarray has a lot of advantages and the widespread application value and prospect.
并对制备出的氧化铝模板及镍纳米阵列进行XRD,TEM及SEM表征。
AAO template and Ni nanoarray are characterized by XRD, tem and SEM.
将纳米阵列体系的修饰电极应用于生物活性分子的检测的电分析化学研究是一个崭新的研究领域。
It's a new kind of research field to apply nano array modified electrode in detecting bioactive molecules in electrochemical analysis.
许多蛋白质和肽类药物必须通过注射或纳米针阵列来传递。
Many proteins and peptide drugs have to be delivered by injection or a nanoneedle array.
虽然单个纳米天线中生成的电流很小,但大量纳米天线组成的阵列就足以产生可以使用的电量。
Though the current in each nantenna is small, an array of them can produce a useful amount of electricity.
直流电沉积法可用来制备高度有序的金属纳米线阵列,且通过控制模板孔径可实现对其结构和性能的调控。
The DC electrodeposition method can be used to prepare highly ordered metal nanowire arrays that their structures and properties can be adjusted by controlling the pore sizes of the AAO templates.
粒子的沉积由高电场驱动-在纳米线顶端周围形成的强化电场-完成,关键是这个电场会使金属颗粒吸附在纳米线阵列的顶端。
The particle deposition was driven using a high electric field - the key aspect was that the enhanced electric field surrounding the nanowire tips attracted particles to the top of the nanowire array.
这个研究组相信他们的这种在纳米线阵列形成后即刻得到的顶端接触方法具有普适性,并且有可能在电驱动的纳米线激光器和发光二极管(LED)方面有潜在的应用。
The team believes its approach of creating a top contact to nanowire arrays as-grown is universally applicable and may be useful in the design of electrically driven nanowire lasers and LEDs.
磁性铁纳米线阵列优异的高频吸波性能可能来源于纳米效应和共振效应。
The excellent microwave absorbing properties in the high frequency of the iron nanowire arrays possibly results from the nanometer effect and resonance effect.
悬浮液中的胶体球在一定条件下能够自组装成二维胶体晶体,以此为掩膜可合成纳米颗粒阵列体系,其颗粒形状、尺寸以及间距等参数易于控制。
In the nanoparticle array synthesized by taking the colloid crystal as the lithography mask, the shapes, sizes, spacing and even compositions of the particles can be controlled easily.
给出了考虑近邻耦合和次近邻耦合下的二维纳米波导阵列的波耦合方程,并且对三波导模型与四波导模型进行了数值的分析。
The coupled-mode equations for two-dimension nanoscale waveguide arrays are presented by considering the couplings between adjacent guides and sub-adjacent guides.
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 %.
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.
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.
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.
为了满足以上要求,阵列元素的尺寸必须由目前的微米尺度缩小到纳米尺度。
To achieve such demands, the element size of biochip must be reduced from microscale to nanoscale.
从纳米线阵列的TEM 图可以看到,纳米线长短大体一致,粗细均匀,表观形状与模板的柱形微孔相同。
TEM spectra of nanowires array show that the length of nanowires is uniform and that the shape of nanowires is the same with that of nanoholes.
采用巨正则蒙特卡罗方法模拟氢分子在碳纳米管及其阵列中的存储过程。
The grand canonical Monte Carlo method is adopted to simulate hydrogen molecules storage in carbon nanotubes and tube arrays.
利用介孔氧化硅薄膜作为模板,通过无电沉积路线在介孔薄膜孔道内合成了高密度钯金属纳米线阵列。
An electroless deposition route was employed to incorporate high density palladium nanowire arrays into the pore channels of mesoporous thin films (MTFs) which served as templates.
在以聚赖氨酸为表面耦联层分子的玻片基底制备了银纳米粒子阵列。
Planar arrays of nano structured silver particle were self assembled on poly lysine modified glass surfaces.
我们利用AAO膜为模板,采用物理的方法制备得到了金属铜的纳米孔洞阵列膜。
We use the AAO as template, well-aligned and highly ordered nano-hole array copper membranes were copied from the template by vacuum plating.
本论文通过CVD、热蒸发等方法,制备了有序化自组装纳米硅丝阵列、不同直径纳米硅丝、纳米硅管等一维纳米材料。
In this paper, we synthesized some one-dimensional nano-materials including the silicon nanowires with orderly array, different diameters and silicon nanotubes via methods of CVD,.
金属纳米线阵列是一种新型的纳米光学材料,在非线性光学、场发射显示、新型激光器等领域拥有迷人的应用前景。
Metal nanowire arrays are kinds of new nano-optical materials, and have a great application in many areas such as nonlinear optics, field emission, new lasers.
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.
报道了一种氧化锌纳米线阵列的无模板电沉积制备方法。
A template-free electrochemical deposition method for preparations of ZnO nanorod array is reported.
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.
势能效应源于碳氢和氢氢之间的相互作用,空间效应则来自碳纳米管及其阵列的中空结构。
The potential effect attributes to the interaction of carbon-hydrogen and hydrogen-hydrogen, and the space effect comes from the hollow structure of carbon nanotubes and tube arrays.
通过样品退火前后宏观磁性能比较,探讨了交流电沉积磁性纳米线阵列的磁化反转机制。
By comparing the patterns of macro magnetic performance before and after annealing, the magnetization reversal of magnetic nanowires was studied.
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