原子力显微技术利用探针尖端与标本之间相互作用的力场对标本进行三维成像。
The interaction forces between the tip and sample is used to acquire 3-dimentional image of the samples in atomic force microscopy(AFM).
现在,科学家们将一种名为原子力显微技术的精度结合到MRI的三维成像能力上。
Now scientists are combining the 3-D capability of MRI with the precision of a technique called atomic force microscopy.
目的:利用原子力显微技术(AFM)观察原代培养的海马神经元超微结构及其相互间的连接结构。
Objective To investigate the ultrastructure and the connection structures between primarily cultured hippocampal neurons with atomic force microscopy AFM .
1991年,理论物理学家约翰·赛德斯首次提出了将原子力显微技术与MRI相结合用以对微小生物结构成像的想法。
In 1991, theoretical physicist John Sidles first proposed the idea of combining MRI with atomic force microscopy to image tiny biological structures.
该薄膜的表面形态和特征采用扫描电子显微技术(SEM),X射线衍射(XRD)以及原子力显微技术(afm)描述。
The surface morphology and characteristics of the films were characterized by scanning electron microscopy (SEM), X-ray diffraction (XRD), and atomic force microscopy (AFM).
研究人员使用不同的技术研究了火山灰颗粒的尺寸和结构,例如原子力显微镜、电子扫描显微镜和X射线衍射。
The researchers analysed the sizes and structures of ash particles using a variety of techniques, such as atomic force microscopy, scanning electron microscopy and X-ray diffraction.
该技术由瑞士国家科学基金会和帕卡德基金会提供资金支持,它通过编程来控制原子力显微镜(AFM)工作。
The method, developed with support from the Swiss National Science Foundation and the Packard Foundation, works by changing the programming that controls an Atomic Force Microscope (AFM).
原子力显微镜(afm)是近十几年来表面成像技术中最重要的进展之一。
AFM is the foremost development on the image technique of the surface in near ten years.
原子力显微镜(afm)是目前最新的生物成像技术之一。
Atomic force microscope (AFM) is one of the newest imaging techniques in the field of biomedicine.
该研究小组利用共焦光学显微镜观察纤维,利用动态光散射技术证实了纤维的组装过程,而且利用原子力显微镜技术(AFM)研究了它们的形态。
The research team observed the fibers using confocal light microscopy, confirmed their assembly using dynamic light scattering and studied their morphology using atomic force microscopy (AFM).
简要介绍了原子力显微镜这一新型表面测试技术在猪皮胶原精细结构研究中的应用方法。
The usage of AFM(atomic force microscope), which is a new method of surface test, in studying the fine structure of natural pig collagen was discussed.
用于生物体系成象的原子力显微镜等新的分析技术以及其它表面和材料分析的技术已经或即将推出商品化的仪器。
Atomic force microscopy for the imaging of biological systems, and other techniques for surface and materials analysis are already, or may soon be, appearing as commercialized instruments.
为研究蛋白质晶体的生长机理,采用气相扩散法制备溶菌酶晶体,使用原子力显微成像技术观测了溶菌酶晶体(101)生长面的形貌。
In order to study the growth mechanism of protein crystals, the surface morphology of(101) face of lysozyme crystals obtained by gas diffusion method was observed by AFM imaging.
基于在DNA单分子定位切割和拾取方面的实验进展,提出了一种基于原子力显微镜纳米操纵技术的单分子有序化测序策略。
Thus an ordered sequencing strategy is proposed based on the experimental advancements in positioning dissection and isolation of single DNA molecules with AFM nanomanipulation.
原子力显微镜分子成像和纳米操纵技术在生物医学中具有广阔的应用前景。
Atomic force microscope molecular imaging and nanometer manipulation will be widely applied on biomedicine.
利用LB技术和原子力显微镜(afm)研究表面活性剂混合不溶膜的结构。
Mixed monolayers of surfactants were investigated by AFM and LB technique.
原子力显微镜(afm)是在扫描隧道显微镜(STM)基础上发明的又一种纳米级高分辨率显微技术,目前已在高分子领域获得了广泛的应用。
Atomic force microscope (AFM) was invented as another nanoscale microscopy with high resolution based on scanning tunneling microscope (STM) and has extensive application in polymer field.
原子力显微镜结合其它研究技术是该领域的重要研究方法。
Combined of other techniques, atomic force microscopy is an innovate methods in this research field.
原子力显微术是一种利用原子、分子间的相互作用力来观察物体表面超微结构的新型实验技术。
Atomic force microscopy is a kind of new experimental technique using the interatomic mutual action to observe the surface ultrastructure of the object.
在扫描探针纳米加工技术的基础上,提出了利用原子力显微镜(AFM)来制作高频光栅的新工艺。
On the basis of micro-fabrication technique using the atomic force microscope, a new method was proposed for producing high frequency grating.
在扫描探针纳米加工技术的基础上,提出了利用原子力显微镜(AFM)来制作高频光栅的新工艺。
On the basis of micro-fabrication technique using the atomic force microscope, a new method was proposed for producing high frequency grating.
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