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Interfacing electrogenic cells with 3D nanoelectrodes: position, shape, and size matter.

An in-depth understanding of the interface between cells and nanostructures is one of the key challenges for coupling electrically excitable cells and electronic devices. Recently, various 3D nanostructures have been introduced to stimulate and record electrical signals emanating from inside of the... Full description

Journal Title: ACS nano July 22, 2014, Vol.8(7), pp.6713-6723
Main Author: Santoro, Francesca
Other Authors: Dasgupta, Sabyasachi , Schnitker, Jan , Auth, Thorsten , Neumann, Elmar , Panaitov, Gregory , Gompper, Gerhard , Offenhäusser, Andreas
Format: Electronic Article Electronic Article
Language: English
Subjects:
ID: E-ISSN: 1936-086X ; DOI: 10.1021/nn500393p
Link: http://search.proquest.com/docview/1547831414/?pq-origsite=primo
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title: Interfacing electrogenic cells with 3D nanoelectrodes: position, shape, and size matter.
format: Article
creator:
  • Santoro, Francesca
  • Dasgupta, Sabyasachi
  • Schnitker, Jan
  • Auth, Thorsten
  • Neumann, Elmar
  • Panaitov, Gregory
  • Gompper, Gerhard
  • Offenhäusser, Andreas
subjects:
  • Cell Line–Instrumentation
  • Cell Membrane–Instrumentation
  • Electrodes–Instrumentation
  • Nanostructures–Instrumentation
  • Nanotechnology–Instrumentation
ispartof: ACS nano, July 22, 2014, Vol.8(7), pp.6713-6723
description: An in-depth understanding of the interface between cells and nanostructures is one of the key challenges for coupling electrically excitable cells and electronic devices. Recently, various 3D nanostructures have been introduced to stimulate and record electrical signals emanating from inside of the cell. Even though such approaches are highly sensitive and scalable, it remains an open question how cells couple to 3D structures, in particular how the engulfment-like processes of nanostructures work. Here, we present a profound study of the cell interface with two widely used nanostructure types, cylindrical pillars with and without a cap. While basic functionality was shown for these approaches before, a systematic investigation linking experimental data with membrane properties was not presented so far. The combination of electron microscopy investigations with a theoretical membrane deformation model allows us to predict the optimal shape and dimensions of 3D nanostructures for cell-chip...
language: eng
source:
identifier: E-ISSN: 1936-086X ; DOI: 10.1021/nn500393p
fulltext: fulltext
issn:
  • 1936086X
  • 1936-086X
url: Link


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titleInterfacing electrogenic cells with 3D nanoelectrodes: position, shape, and size matter.
creatorSantoro, Francesca ; Dasgupta, Sabyasachi ; Schnitker, Jan ; Auth, Thorsten ; Neumann, Elmar ; Panaitov, Gregory ; Gompper, Gerhard ; Offenhäusser, Andreas
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ispartofACS nano, July 22, 2014, Vol.8(7), pp.6713-6723
identifierE-ISSN: 1936-086X ; DOI: 10.1021/nn500393p
subjectCell Line–Instrumentation ; Cell Membrane–Instrumentation ; Electrodes–Instrumentation ; Nanostructures–Instrumentation ; Nanotechnology–Instrumentation
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descriptionAn in-depth understanding of the interface between cells and nanostructures is one of the key challenges for coupling electrically excitable cells and electronic devices. Recently, various 3D nanostructures have been introduced to stimulate and record electrical signals emanating from inside of the cell. Even though such approaches are highly sensitive and scalable, it remains an open question how cells couple to 3D structures, in particular how the engulfment-like processes of nanostructures work. Here, we present a profound study of the cell interface with two widely used nanostructure types, cylindrical pillars with and without a cap. While basic functionality was shown for these approaches before, a systematic investigation linking experimental data with membrane properties was not presented so far. The combination of electron microscopy investigations with a theoretical membrane deformation model allows us to predict the optimal shape and dimensions of 3D nanostructures for cell-chip...
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date2014-07-22