Direct FIB fabrication and integration of "single nanopore devices" for the manipulation of macromolecules

B. Schiedt; L. Auvray; L. Bacri; A. L. Biance; A. Madouri; E. Bourhis; G. Patriarche; J. Pelta; R. Jede; J. Gierak

doi:10.1557/proc-1191-oo09-04

Direct FIB fabrication and integration of "single nanopore devices" for the manipulation of macromolecules

B. Schiedt, L. Auvray, L. Bacri, A. L. Biance, A. Madouri, E. Bourhis, G. Patriarche, J. Pelta, R. Jede, J. Gierak

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Here we propose to detail an innovative FIB instrumental approach and processing methodologies we have developed for sub-10 nm nanopore fabrication. The main advantage of our method is first to allow direct fabrication of nanopores in relatively large quantities with an excellent reproducibility. Second our approach offers the possibility to further process or functionalize the vicinity of each pore on the same scale keeping the required deep sub-10 nm scale positioning and patterning accuracy. We will summarise the optimisation efforts we have conducted aiming at fabricating thin (10-100 nm thick) and high quality dielectric films to be used as a template for the nanopore fabrication, and at performing efficient and controlled FIB nanoengraving of such a delicate media. Finally, we will describe the method we have developed for integrating these "single nanopore devices" in electrophoresis experiments and our preliminary measurements.

Original language	English
Title of host publication	Materials and Strategies for Lab-on-a-Chip - Biological Analysis, Cell-Material Interfaces and Fluidic Assembly of Nanostructures
Publisher	Materials Research Society
Pages	93-100
Number of pages	8
ISBN (Print)	9781605111292, 9781605111643
DOIs	https://doi.org/10.1557/proc-1191-oo09-04
Publication status	Published - 1 Jan 2009
Externally published	Yes
Event	2009 MRS Spring Meeting - San Francisco, CA, United States Duration: 13 Apr 2009 → 17 Apr 2009

Publication series

Name	Materials Research Society Symposium Proceedings
Volume	1191
ISSN (Print)	0272-9172

Conference

Conference	2009 MRS Spring Meeting
Country/Territory	United States
City	San Francisco, CA
Period	13/04/09 → 17/04/09

Access to Document

10.1557/proc-1191-oo09-04

Cite this

Schiedt, B., Auvray, L., Bacri, L., Biance, A. L., Madouri, A., Bourhis, E., Patriarche, G., Pelta, J., Jede, R., & Gierak, J. (2009). Direct FIB fabrication and integration of "single nanopore devices" for the manipulation of macromolecules. In Materials and Strategies for Lab-on-a-Chip - Biological Analysis, Cell-Material Interfaces and Fluidic Assembly of Nanostructures (pp. 93-100). (Materials Research Society Symposium Proceedings; Vol. 1191). Materials Research Society. https://doi.org/10.1557/proc-1191-oo09-04

Schiedt, B. ; Auvray, L. ; Bacri, L. et al. / Direct FIB fabrication and integration of "single nanopore devices" for the manipulation of macromolecules. Materials and Strategies for Lab-on-a-Chip - Biological Analysis, Cell-Material Interfaces and Fluidic Assembly of Nanostructures. Materials Research Society, 2009. pp. 93-100 (Materials Research Society Symposium Proceedings).

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title = "Direct FIB fabrication and integration of {"}single nanopore devices{"} for the manipulation of macromolecules",

abstract = "Here we propose to detail an innovative FIB instrumental approach and processing methodologies we have developed for sub-10 nm nanopore fabrication. The main advantage of our method is first to allow direct fabrication of nanopores in relatively large quantities with an excellent reproducibility. Second our approach offers the possibility to further process or functionalize the vicinity of each pore on the same scale keeping the required deep sub-10 nm scale positioning and patterning accuracy. We will summarise the optimisation efforts we have conducted aiming at fabricating thin (10-100 nm thick) and high quality dielectric films to be used as a template for the nanopore fabrication, and at performing efficient and controlled FIB nanoengraving of such a delicate media. Finally, we will describe the method we have developed for integrating these {"}single nanopore devices{"} in electrophoresis experiments and our preliminary measurements.",

author = "B. Schiedt and L. Auvray and L. Bacri and Biance, \{A. L.\} and A. Madouri and E. Bourhis and G. Patriarche and J. Pelta and R. Jede and J. Gierak",

year = "2009",

month = jan,

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doi = "10.1557/proc-1191-oo09-04",

language = "English",

isbn = "9781605111292",

series = "Materials Research Society Symposium Proceedings",

publisher = "Materials Research Society",

pages = "93--100",

booktitle = "Materials and Strategies for Lab-on-a-Chip - Biological Analysis, Cell-Material Interfaces and Fluidic Assembly of Nanostructures",

note = "2009 MRS Spring Meeting ; Conference date: 13-04-2009 Through 17-04-2009",

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Schiedt, B, Auvray, L, Bacri, L, Biance, AL, Madouri, A, Bourhis, E, Patriarche, G, Pelta, J, Jede, R & Gierak, J 2009, Direct FIB fabrication and integration of "single nanopore devices" for the manipulation of macromolecules. in Materials and Strategies for Lab-on-a-Chip - Biological Analysis, Cell-Material Interfaces and Fluidic Assembly of Nanostructures. Materials Research Society Symposium Proceedings, vol. 1191, Materials Research Society, pp. 93-100, 2009 MRS Spring Meeting, San Francisco, CA, United States, 13/04/09. https://doi.org/10.1557/proc-1191-oo09-04

Direct FIB fabrication and integration of "single nanopore devices" for the manipulation of macromolecules. / Schiedt, B.; Auvray, L.; Bacri, L. et al.
Materials and Strategies for Lab-on-a-Chip - Biological Analysis, Cell-Material Interfaces and Fluidic Assembly of Nanostructures. Materials Research Society, 2009. p. 93-100 (Materials Research Society Symposium Proceedings; Vol. 1191).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Direct FIB fabrication and integration of "single nanopore devices" for the manipulation of macromolecules

AU - Schiedt, B.

AU - Auvray, L.

AU - Bacri, L.

AU - Biance, A. L.

AU - Madouri, A.

AU - Bourhis, E.

AU - Patriarche, G.

AU - Pelta, J.

AU - Jede, R.

AU - Gierak, J.

PY - 2009/1/1

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N2 - Here we propose to detail an innovative FIB instrumental approach and processing methodologies we have developed for sub-10 nm nanopore fabrication. The main advantage of our method is first to allow direct fabrication of nanopores in relatively large quantities with an excellent reproducibility. Second our approach offers the possibility to further process or functionalize the vicinity of each pore on the same scale keeping the required deep sub-10 nm scale positioning and patterning accuracy. We will summarise the optimisation efforts we have conducted aiming at fabricating thin (10-100 nm thick) and high quality dielectric films to be used as a template for the nanopore fabrication, and at performing efficient and controlled FIB nanoengraving of such a delicate media. Finally, we will describe the method we have developed for integrating these "single nanopore devices" in electrophoresis experiments and our preliminary measurements.

AB - Here we propose to detail an innovative FIB instrumental approach and processing methodologies we have developed for sub-10 nm nanopore fabrication. The main advantage of our method is first to allow direct fabrication of nanopores in relatively large quantities with an excellent reproducibility. Second our approach offers the possibility to further process or functionalize the vicinity of each pore on the same scale keeping the required deep sub-10 nm scale positioning and patterning accuracy. We will summarise the optimisation efforts we have conducted aiming at fabricating thin (10-100 nm thick) and high quality dielectric films to be used as a template for the nanopore fabrication, and at performing efficient and controlled FIB nanoengraving of such a delicate media. Finally, we will describe the method we have developed for integrating these "single nanopore devices" in electrophoresis experiments and our preliminary measurements.

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DO - 10.1557/proc-1191-oo09-04

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BT - Materials and Strategies for Lab-on-a-Chip - Biological Analysis, Cell-Material Interfaces and Fluidic Assembly of Nanostructures

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ER -

Schiedt B, Auvray L, Bacri L, Biance AL, Madouri A, Bourhis E et al. Direct FIB fabrication and integration of "single nanopore devices" for the manipulation of macromolecules. In Materials and Strategies for Lab-on-a-Chip - Biological Analysis, Cell-Material Interfaces and Fluidic Assembly of Nanostructures. Materials Research Society. 2009. p. 93-100. (Materials Research Society Symposium Proceedings). doi: 10.1557/proc-1191-oo09-04

Direct FIB fabrication and integration of "single nanopore devices" for the manipulation of macromolecules

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