Hydration Scanning Probe Microscopy is a technique similar to Scanning tunneling Microscopy, in which the probe current, sustained by the slight surface conduction of a thin hydration layer covering an insulating support surface, is essentially electrochemical in nature instead of electronic tunneling. Such a technique allows the imaging of a great variety of samples, including insulators, provided that they are hydrophilic, as well as the study of molecular samples of biological interest (like DNA) fixed on a suitable supporting surface. The main problem to obtain stable and reproducible images comes from the very critical determination of the operating conditions under which the probe-hydration layer interaction does not lead to the formation of a relatively large water meniscus. It has been suggested that this issue can be removed by adding a high frequency oscillation to the probe movement, as in tapping Atomic Force Microscopy. Meniscus formation and breakup has been investigated in order to determine the best values for the amplitude and the frequency of the oscillation. Results obtained in this mode are discussed in comparison with the usual continuous contact mode.
Intermittent contact Hydration Scanning Probe Microscopy / G. Aloisi; F. Bacci; M. Carla'; D. Dolci. - In: REVIEW OF SCIENTIFIC INSTRUMENTS. - ISSN 0034-6748. - STAMPA. - 81:(2010), pp. 073707-1-073707-4. [10.1063/1.3458006]
Intermittent contact Hydration Scanning Probe Microscopy
ALOISI, GIOVANNI DOMENICO;BACCI, FEDERICO;CARLA', MARCELLO;DOLCI, DAVID
2010
Abstract
Hydration Scanning Probe Microscopy is a technique similar to Scanning tunneling Microscopy, in which the probe current, sustained by the slight surface conduction of a thin hydration layer covering an insulating support surface, is essentially electrochemical in nature instead of electronic tunneling. Such a technique allows the imaging of a great variety of samples, including insulators, provided that they are hydrophilic, as well as the study of molecular samples of biological interest (like DNA) fixed on a suitable supporting surface. The main problem to obtain stable and reproducible images comes from the very critical determination of the operating conditions under which the probe-hydration layer interaction does not lead to the formation of a relatively large water meniscus. It has been suggested that this issue can be removed by adding a high frequency oscillation to the probe movement, as in tapping Atomic Force Microscopy. Meniscus formation and breakup has been investigated in order to determine the best values for the amplitude and the frequency of the oscillation. Results obtained in this mode are discussed in comparison with the usual continuous contact mode.File | Dimensione | Formato | |
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