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04192nam a22005895i 4500 |
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978-3-540-85039-7 |
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DE-He213 |
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20151204153436.0 |
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cr nn 008mamaa |
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100301s2009 gw | s |||| 0|eng d |
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|a 9783540850397
|9 978-3-540-85039-7
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|a 10.1007/978-3-540-85039-7
|2 doi
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|a T174.7
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|a TEC027000
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|a 620.5
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|a Applied Scanning Probe Methods XII
|h [electronic resource] :
|b Characterization /
|c edited by Bharat Bhushan, Harald Fuchs.
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|a Berlin, Heidelberg :
|b Springer Berlin Heidelberg :
|b Imprint: Springer,
|c 2009.
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|a LV, 224 p.
|b online resource.
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|a text
|b txt
|2 rdacontent
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|a computer
|b c
|2 rdamedia
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|a online resource
|b cr
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|a text file
|b PDF
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|a NanoScience and Technology,
|x 1434-4904
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|a Direct Force Measurements of Receptor–Ligand Interactions on Living Cells -- Imaging Chemical Groups and Molecular Recognition Sites on Live Cells Using AFM -- Applications of Scanning Near-Field Optical Microscopy in Life Science -- Adhesion and Friction Properties of Polymers at Nanoscale: Investigation by AFM -- Mechanical Characterization of Materials by Micro-Indentation and AFM Scanning -- Mechanical Properties of Metallic Nanocontacts -- Dynamic AFM in Liquids: Viscous Damping and Applications to the Study of Confined Liquids -- Microtensile Tests Using In Situ Atomic Force Microscopy -- Scanning Tunneling Microscopy of the Si(111)-7×7 Surface and Adsorbed Ge Nanostructures.
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|a Crack initiation and growth are key issues when it comes to the mechanical reliab- ity of microelectronic devices and microelectromechanical systems (MEMS). Es- cially in organic electronics where exible substrates will play a major role these issues will become of utmost importance. It is therefore necessary to develop me- ods which in situ allow the experimental investigation of surface deformation and fracture processes in thin layers at a micro and nanometer scale. While scanning electron microscopy (SEM) might be used it is also associated with some major experimental drawbacks. First of all if polymers are investigated they usually have to be coated with a metal layer due to their commonly non-conductive nature. Additi- ally they might be damaged by the electron beam of the microscope or the vacuum might cause outgasing of solvents or evaporation of water and thus change material properties. Furthermore, for all kinds of materials a considerable amount of expe- mental effort is necessary to build a tensile testing machine that ts into the chamber. Therefore, a very promising alternative to SEM is based on the use of an atomic force microscope (AFM) to observe in situ surface deformation processes during straining of a specimen. First steps towards this goal were shown in the 1990s in [1–4] but none of these approaches truly was a microtensile test with sample thicknesses in the range of micrometers. To the authors’ knowledge, this was shown for the rst time by Hild et al. in [5]. 16.
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|a Engineering.
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|a Polymers.
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|a Surfaces (Physics).
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|a Interfaces (Physical sciences).
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| 650 |
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|a Thin films.
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| 650 |
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|a Spectroscopy.
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| 650 |
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|a Microscopy.
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| 650 |
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|a Nanotechnology.
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| 650 |
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|a Materials
|x Surfaces.
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4 |
|a Engineering.
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| 650 |
2 |
4 |
|a Nanotechnology and Microengineering.
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| 650 |
2 |
4 |
|a Spectroscopy and Microscopy.
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| 650 |
2 |
4 |
|a Surface and Interface Science, Thin Films.
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| 650 |
2 |
4 |
|a Nanotechnology.
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| 650 |
2 |
4 |
|a Surfaces and Interfaces, Thin Films.
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| 650 |
2 |
4 |
|a Polymer Sciences.
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| 700 |
1 |
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|a Bhushan, Bharat.
|e editor.
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| 700 |
1 |
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|a Fuchs, Harald.
|e editor.
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| 710 |
2 |
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|a SpringerLink (Online service)
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0 |
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|t Springer eBooks
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| 776 |
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8 |
|i Printed edition:
|z 9783540850380
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| 830 |
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|a NanoScience and Technology,
|x 1434-4904
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| 856 |
4 |
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|u http://dx.doi.org/10.1007/978-3-540-85039-7
|z Full Text via HEAL-Link
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| 912 |
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|a ZDB-2-CMS
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| 950 |
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|a Chemistry and Materials Science (Springer-11644)
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