What makes the Harvard and NIH work so promising is its nano scale.
NIH的工作大有前途是因为它是纳米级别的。
The modified nano scale copper was characterized by FTIR and SEM.
采用傅立叶变换红外光谱仪和扫描电镜表征修饰的纳米铜材料。
Nano scale materials applied in lithium ion batteries and the progress are reviewed.
介绍了纳米材料在锂离子电池中的应用及进展情况。
The kinds, application and preparation method of nano scale materials are introduced.
介绍了纳米材料的种类,应用及制备方法。
The properties of solid materials in nano scale are considerably different from those in macroscopic scale.
固体材料性能在纳米尺度和宏观尺度下明显不同。
Therefore, experimental investigations of deformation behaviors of materials at micro and nano scale are urgently required.
因此,开展微纳米尺度下材料变形行为的实验研究十分必要。
Meanwhile, the future development have been forecasted by the current realm of nano scale materials research owning the position in China.
根据我国目前纳米材料研究领域所占有的地位,展望了其发展前景。
Currently, the slurries used in CMP usually contain particles at nano scale to accelerate the material remove ratio (MRR) and to optimize the planarity.
目前,CMP的抛光液通常使用纳米级颗粒来加速切除和优化抛光质量。
Carl A. Picconatto, a battery expert at Mitre, a technology consulting firm, and other scientists suggest that materials reduced to the nano scale are a promising avenue.
Mitre技术咨询公司的电池专家,Carla . Picconatto和其他科学家建议采用纳米级材料是一个可行手段。
The technique could eventually be used to design custom-shaped, nano-scale drug-delivery systems and diagnostic devices.
该技术最终可能会用于设计不同形状的纳米级药物传输系统或者疾病诊断器件。
ALICE squeezes even more out of the aluminum by using nano-scale particles with diameters of 80 nanometers, or 500 times smaller than the width of a human hair.
ALICE通过比人类头发细500倍、直径80纳米的纳米颗粒,甚至能从铝中获得更多。
The U.S. may have as good a chance as anyone of being a strong player in nascent industries, whether next-generation wind turbines, medical devices with nano-scale sensors, or electric cars.
在新生行业中,无论是下一代的风力涡轮机、带有纳米级感应器的医疗器械抑或电动汽车,美国与其它国家具有同等机会成为一个有实力的玩家。
Properties and function of ionic liquids in nano-scale.
纳米尺度离子液体的性质和功能。
When the size of particles is decreased to nano-scale, the particles will possess many special characteristics as quantum size effect, surface effect, macro-quantum tunnel effect.
纳米粒子具有的量子尺寸效应、表面效应和宏观量子隧道效应等,使其表现出很多独特的物理及化学性能。
To understand a plant at the very small nano-scale, said Whitesides, one should look inside the plant's cells.
从非常小的纳米尺度来分析植物,就要从它的细胞内部进行观察。
The preparation procedures of nano-scale copper powder are introduced and commented in detail. The problems thereof and the future development trends are pointed out.
详细介绍了纳米铜粉的各种制备方法,并对各种方法进行分析评价,指出了存在的问题及其研究方向。
The result of the discussion shows that the appearance of inorganic nano-scale particle would accelerate the application of inorganic rigid particle in toughening plastic.
通过讨论得出结论,无机纳米粒子的出现,将会大大促进无机刚性粒子在塑料增韧方面的应用。
The abrasion resistant coatings are reviewed in terms of epoxy modified abrasion resistant coatings, ceramic abrasion resistant coatings and nano-scale abrasion resistant coatings.
从环氧树脂改性耐磨涂料、陶瓷耐磨涂料以及纳米技术在耐磨涂料中的应用等几方面对改性耐磨涂料进行综述。
Different core components in the production process and materials coated for nano-scale ultrasound contrast agent exhibit different characteristics respectively.
不同核心成分和包膜材料的纳米级超声造影剂分别表现出不同的特性。
In this paper, micro - and nano - scale fluorescent pattern over large area was fabricated by template directed selective deposition of organic luminescent molecules.
本文通过模板诱导有机发光小分子定位沉积的方法构筑了大面积纳微米尺度的荧光图案。
The development, application and performance of environmentally friendly nano-scale liquid aluminum foil are introduced.
介绍了新型纳米环保液体铝箔的开发、应用及性能。
Cells can respond to micrometer scale, and even nano-scale, surface topography. Cell shape, orientation, growth and differentiation are also affected by surface texture of materials.
多种细胞可以响应微米尺度,甚至于纳米尺度的材料表面拓扑结构,细胞的形态、取向、生长和分化亦受到表面结构的影响。
The features of nano-scale materials and their applications in coatings are summarized. The preparation of nano-scale coatings and research progress thereof are introduced.
概述了纳米材料的特性及其在涂料中的应用;介绍了纳米涂料的制备及国内外的研究进展。
Atomic Force Microscopy (AFM) is a main instrument for nano-scale measurement and manipulation.
原子力显微镜(afm)是进行纳米测量和操作的一种主要工具。
Toughening and strengthening mechanisms of nano-composite ceramics are introduced, the main factors affecting the mechanical properties of the nano-scale ceramic composites are discussed.
介绍纳米复相陶瓷的增韧补强机理,对研制高性能纳米陶瓷刀具材料需考虑的主要因素进行了探讨。
Toughening and strengthening mechanisms of nano-composite ceramics are introduced, the main factors affecting the mechanical properties of the nano-scale ceramic composites are discussed.
介绍纳米复相陶瓷的增韧补强机理,对研制高性能纳米陶瓷刀具材料需考虑的主要因素进行了探讨。
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