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接触模式
相关语句
  contact mode
    In order to investigate the influence to cell, contact mode SPM and tapping mode SPM were used to scan the living cell for a long period of time .
    为了研究SPM成像过程中探针作用力对于细胞的影响 ,我们用SPM的接触模式 (contactmode)和敲击模式 (tappingmode)对培养液中的生物活细胞进行了较长时间的扫描观察。
短句来源
    The result showed that the cell would be withered during scanning in contact mode SPM and the shape of cell would be changed to fit the outside force in tapping mode SPM.
    结果显示 ,尽管接触模式SPM成像清楚 ,但长时间的扫描会造成细胞凋零 ; 敲击模式SPM进行长时间扫描时也会造成细胞变形 ,而细胞会以新的形态来适应外力的影响
短句来源
    In order to explore the application of atomic force microscopy(AFM)on biomedicine and obtain nanoscale real-time imaging of cytoskeleton in living cells,tapping mode and contact mode (two AFM operating modes) were used towards living rat cerebral microvessel endothelial cells(rCMECs).
    为研究原子力显微术在生物医学中的应用,实现对活体细胞骨架纳米尺度的实时观察,采用轻敲模式和接触模式对体外培养的大鼠脑微血管内皮细胞进行成像。
短句来源
  contact mode
    In order to investigate the influence to cell, contact mode SPM and tapping mode SPM were used to scan the living cell for a long period of time .
    为了研究SPM成像过程中探针作用力对于细胞的影响 ,我们用SPM的接触模式 (contactmode)和敲击模式 (tappingmode)对培养液中的生物活细胞进行了较长时间的扫描观察。
短句来源
    The result showed that the cell would be withered during scanning in contact mode SPM and the shape of cell would be changed to fit the outside force in tapping mode SPM.
    结果显示 ,尽管接触模式SPM成像清楚 ,但长时间的扫描会造成细胞凋零 ; 敲击模式SPM进行长时间扫描时也会造成细胞变形 ,而细胞会以新的形态来适应外力的影响
短句来源
    In order to explore the application of atomic force microscopy(AFM)on biomedicine and obtain nanoscale real-time imaging of cytoskeleton in living cells,tapping mode and contact mode (two AFM operating modes) were used towards living rat cerebral microvessel endothelial cells(rCMECs).
    为研究原子力显微术在生物医学中的应用,实现对活体细胞骨架纳米尺度的实时观察,采用轻敲模式和接触模式对体外培养的大鼠脑微血管内皮细胞进行成像。
短句来源
  “接触模式”译为未确定词的双语例句
    Methods AChE native or interacted with GSH and DTT were reconstituted into phospholipid molecular layer and observed by contacting-mode atomic force microsonpyAFM in air.
    方法:将与巯基反应剂GSH和DTT作用前后的AChE重组到磷脂膜上,置于原子力显微镜下观察,扫描方式为空气中接触模式
短句来源
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  contact mode
The K-Cu/ZrO2 catalyst was found to be the most active; it exhibited activity in a loose contact nearly similar to that obtained in a tight contact mode.
      
Scanning force microscopy images of the Si(111)7×7 surface reconstruction are presented which are taken in the contact mode in ultrahigh vacuum.
      
Images have been recorded on PMMA photo resists and analyzed using an atomic force microscope operating in contact mode.
      
Our AFM operates in the so-called contact mode and utilizes the optical-lever detection method which allows simultaneous measurement of the topography as well as the lateral force.
      
Calf skin type I collagen fibrils were regenerated from acidic solution and imaged with contact mode atomic force microscopy in air, water, and buffer solution.
      
更多          
  contact mode
The K-Cu/ZrO2 catalyst was found to be the most active; it exhibited activity in a loose contact nearly similar to that obtained in a tight contact mode.
      
Scanning force microscopy images of the Si(111)7×7 surface reconstruction are presented which are taken in the contact mode in ultrahigh vacuum.
      
Images have been recorded on PMMA photo resists and analyzed using an atomic force microscope operating in contact mode.
      
Our AFM operates in the so-called contact mode and utilizes the optical-lever detection method which allows simultaneous measurement of the topography as well as the lateral force.
      
Calf skin type I collagen fibrils were regenerated from acidic solution and imaged with contact mode atomic force microscopy in air, water, and buffer solution.
      
更多          


One of the outstanding advantages of scanning probe microscope (SPM), is that SPM tip can be scanned in liquid environment, and used to scan living cell with very high resolution. Different from optical microscope, SPM images cells by the interaction between tip and cell. The interaction will influence the statue of cell. In order to investigate the influence to cell, contact mode SPM and tapping mode SPM were used to scan the living cell for a long period of time . The result showed that the cell would be...

One of the outstanding advantages of scanning probe microscope (SPM), is that SPM tip can be scanned in liquid environment, and used to scan living cell with very high resolution. Different from optical microscope, SPM images cells by the interaction between tip and cell. The interaction will influence the statue of cell. In order to investigate the influence to cell, contact mode SPM and tapping mode SPM were used to scan the living cell for a long period of time . The result showed that the cell would be withered during scanning in contact mode SPM and the shape of cell would be changed to fit the outside force in tapping mode SPM.

扫描探针显微镜 (scanningprobemicroscope ,SPM)是近几年发展很快的一种形貌表征仪器。它的一个突出优点是 ,可在溶液中以很高的分辨率对细胞活体进行观察。不同于光学显微镜 ,SPM是利用探针和样品之间的相互作用来扫描成像 ,探针对细胞有力的作用。这种作用力会在扫描过程中直接影响细胞的状态。为了研究SPM成像过程中探针作用力对于细胞的影响 ,我们用SPM的接触模式 (contactmode)和敲击模式 (tappingmode)对培养液中的生物活细胞进行了较长时间的扫描观察。结果显示 ,尽管接触模式SPM成像清楚 ,但长时间的扫描会造成细胞凋零 ;敲击模式SPM进行长时间扫描时也会造成细胞变形 ,而细胞会以新的形态来适应外力的影响

In order to explore the application of atomic force microscopy(AFM)on biomedicine and obtain nanoscale real-time imaging of cytoskeleton in living cells,tapping mode and contact mode (two AFM operating modes) were used towards living rat cerebral microvessel endothelial cells(rCMECs).The results showed that each AFM operating mode had its own unique characteristics in distinguishing ultrastructures and the cytoskeleton fiber bundles beneath the plasma membrane of such cells,providing different aspects of information...

In order to explore the application of atomic force microscopy(AFM)on biomedicine and obtain nanoscale real-time imaging of cytoskeleton in living cells,tapping mode and contact mode (two AFM operating modes) were used towards living rat cerebral microvessel endothelial cells(rCMECs).The results showed that each AFM operating mode had its own unique characteristics in distinguishing ultrastructures and the cytoskeleton fiber bundles beneath the plasma membrane of such cells,providing different aspects of information about the cytoskeleton fibers.

为研究原子力显微术在生物医学中的应用,实现对活体细胞骨架纳米尺度的实时观察,采用轻敲模式和接触模式对体外培养的大鼠脑微血管内皮细胞进行成像。结果显示不同模式在分辨细胞超微结构及质膜下细胞骨架纤维束等方面各有特点,可从不同角度获取细胞骨架的信息。

The mechanism of the process that Ag~+ was absorbed by chitosan was studied in this paper based on AFM images. Prepared solution was deposited onto new freshly cleaved sheets of mica, dried in air and scanned by noncontact mode AFM. AFM images show that chitosan aggregates and those absorbs Ag~+ with fractal characteristics of traditional normal distribution and singular distribution. Chitosan aggregates in star-like structure, while those which absorb Ag~+ grow disc-like structure. These significant differences...

The mechanism of the process that Ag~+ was absorbed by chitosan was studied in this paper based on AFM images. Prepared solution was deposited onto new freshly cleaved sheets of mica, dried in air and scanned by noncontact mode AFM. AFM images show that chitosan aggregates and those absorbs Ag~+ with fractal characteristics of traditional normal distribution and singular distribution. Chitosan aggregates in star-like structure, while those which absorb Ag~+ grow disc-like structure. These significant differences may be explained by the surface tension of the interface and the anisotropic characteristic. Both structures demonstrate good self-similarities and are well consistent with the fractal model simulated by computer.

利用原子力显微镜(AFM)对壳聚糖吸附银离子进行研究,从形貌学的角度探测壳聚糖络合银离子的机理特性.主要方法是将溶液滴加在新解离的云母片上,应用原子力显微镜对自然风干后的样品在非接触模式下成像.AFM图像显示:壳聚糖分子和加过金属银离子的壳聚糖分子在聚集生长过程呈现为传统的具有分形特征的正态分布和奇异分布;由单一的壳聚糖分子形成的分形结构为"星"形结构,而加过银离子的壳聚糖分子形成的结构为"圆"形.产生这些图形差别的根本原因是由于生长界面的表面张力及其各向异性起了重要作用.这两种结构都具有典型的自相似性,且实验结果与计算机模拟的分形模式拟合得很好.

 
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