Life at the nanometer scale could be a whole new world.
生命在纳米水平的可能是完全不一样的世界。
Research is focusing on understanding and creating material on the nanometer scale.
当前研究重点是弄清和创制纳米级材料。
The shell thickness can be tuned at the nanometer scale by controlling the number of layers.
通过控制组装的次数,可实现纳米级别上的壳层厚度控制。
Precision exceeds 0.1%, or 0.5 picometers (2) and spatial resolution is on the nanometer scale.
精确度超过0.1%,或者说在纳米尺度下的空间分辨率在0.5皮米。
The final aim of nanotechnology is to fabricate specified functional products onthe nanometer scale.
纳米技术的最终目的是要在纳米尺度上制造出特定功能的产品。
Scanning near-field optical microscopy (SNOM) is a novel tool for the research down to nanometer scale.
扫描近场光学显微镜(SNOM)是一种能探测纳米尺寸的新型显微工具。
This paper presents a micro-hardness testing method, namely depth-hardness testing with nanometer scale.
阐述了一种纳米尺度下测试材料显微硬度的试验方法——深度硬度试验法。
Thin films are widely used in MEMS with different thicknesses from micron, sub-micron to nanometer scale.
MEMS中大量使用薄膜材料,厚度可达微米、亚微米直至纳米量级。
Nanomechanics deals with the mechanical problems of materials, apparatus and structures at nanometer scale.
纳米力学是研究纳米尺度材料、器件与结构的力学。
A metal coated nanoparticle consists of a nanometer scale dielectric core surrounded by a thin metallic shell.
金属包裹纳米粒子是一种纳米量级的介质球核外包裹薄金属层的纳米粒子。
Motion resolution in nanometer scale is the important characteristic indicator of ultra-precision machine tool.
纳米级分辨率的运动是当今超精密机床精度指标的特征标志。
Aerogols are a novel nanoporous, noncrystalline material, whose structure can be controlled at nanometer scale.
气凝胶是一种新型纳米多孔非晶态材料,结构可控。
The invention relates to nanometer scale iron powder, in particular to water purification special purpose iron powder.
本发明涉及一种纳米级别铁粉,具体为一种水净化专用铁粉。
On this problem, this study was to make the multi-wavelengths interferometry researches on nanometer scale measurement.
本课题针对这些要求,进行了光学多波长干涉法在纳米测量领域的应用研究。
The rapid progress of semi-conductor technology on deep sub-micro and nanometer scale announces the SOC era of IC design.
深亚微米和纳米级的半导体技术迅速进步,使得集成电路的设计已经进入系统集成芯片时代。
The superlattice coatings are an alternate multilayer structure under nanometer scale. The period thickness is 5-10 nanometer.
超晶格涂层是纳米尺度下两种不同层以超晶格周期层间交替形成的多层结构,层间厚度在5—10纳米。
Nanotechnology is a new comprehensive system which products new substances and exploits new applied technology in nanometer scale.
纳米技术就是在纳米的尺度范围内,设法组成新物质、开发新应用的技术。
Manipulating biological macromolecules to form molecular patterns on nanometer scale is an interesting subject with wide prospects.
操纵生物大分子以在纳米尺度上构造分子建筑,是当今分子操纵领域中很具吸引力的研究主题。
Therefore, an effective method of evaluation is needed to characterize the mechanical properties of those materials on nanometer scale.
因此需要一种行之有效的评价方法来表征这些材料在纳米尺度上的力学性能。
Cold trap using liquid nitrogen to achieve a constant input of rapid cooling, so that rapid nucleation of steam to ensure that the nanometer scale.
冷阱采用了不断输入液氮实现了急速冷却,使蒸汽快速成核以保证纳米尺度。
Nanofabrication in electrical field by Scanning Probe Microscope (SPM) can fabricate electrical devices and mechanical structures in nanometer scale.
利用扫描探针显微镜(SPM)能够实现纳米级电子器件和机械器件的加工。
The pore radius was in nanometer scale, with uniformity and high ratio of depth and radius, so it's ideal mask for one-dimension nanometer materials.
其孔径为纳米级且分布均匀,纵横比大,是合成一维纳米材料的理想模板。
It has been revealed that materials and structures on the micro and nanometer scale demonstrate many characteristics different from their macro dimensions.
材料与结构在微纳米尺度展现了许多不同于宏观尺度的新特征,纳米技术已经成为当前科学研究与工业开发的热门领域之一。
That means the etching systems have to be capable of creating extremely deep and narrow trenches in silicon, at the nanometer scale, with immense precision.
因为这意味着蚀刻系统必须能以纳米刻度,以超高精度在芯片上刻下极深、极窄的沟槽。
The super high strength, ductility, nanometer scale and large aspect ratio of carbon nanotubes (CNTs) make it an ideal reinforcement additive for composites.
碳纳米管极高的强度、韧性及其纳米尺寸和极大的长径比,使其有望成为复合材料理想的增强体。
As a new kind of scanning probe microscopy, scanning ion conductance microscopy (SICM) is designed for imaging non-conducting biological sample at the nanometer scale.
扫描离子电导显微镜技术是在纳米尺度进行非导电的生物样品成像的一种新型扫描探针显微镜技术。
The observation also showed that the hydroxyapatite is of layered microstructure and composed with hydroxyapatite sheets with nanometer scale and parallel distribution.
观察也显示这些羟基磷灰石层又是由许多长而薄的羟基磷灰石片所组成,这些羟基磷灰石片也平行排列,且其厚度具有纳米的尺度。
For many applications, mesoporous materials should be not only controlled the nanometer scale of the pore structure but also controlled the micrometer scale of the morphology.
在很多应用中,不仅要求控制介孔材料纳米级的介孔结构,还要求控制其微米级的形貌。
For many applications, mesoporous materials should be not only controlled the nanometer scale of the pore structure but also controlled the micrometer scale of the morphology.
在很多应用中,不仅要求控制介孔材料纳米级的介孔结构,还要求控制其微米级的形貌。
应用推荐