Next generation nanotechnologies for sensor array fabrication

Montelius, Lars; Beck, Marc; Ling, T.; Carlberg, Patrick; Graczyk, Mariusz; Maximov, Ivan; Sarwe, Eva-Lena

Next generation nanotechnologies for sensor array fabrication

Mark

Montelius, Lars ^LU ; Beck, Marc ^LU ; Ling, T. ; Carlberg, Patrick ^LU ; Graczyk, Mariusz ^LU ; Maximov, Ivan ^LU and Sarwe, Eva-Lena ^LU (2002) Proceedings of 7th International Conference on Nanometer-Scale Science and Technology and 21st European Conference on Surface Science (NANO-7/ECOSS-21)

Abstract: New emerging technologies such as nanoimprint lithography (NIL) offers the biosensor research community the possibility to fabricate low-cost biodevices having nanometer dimensions. Such nanosized devices can be applied as biosensors where new functions might emerge due to the nanoscale dimensions. In this paper we will discuss various nanolithography methods as well as the benefits of going to the nanoscale for biosensor applications. We will also show results from mixed NIL and UV-lithography for fabrication of interdigitated nanobiosensor electrodes on up to 6'' large Si wafers. The electrode and inter-electrode distances were 100 nm wide over a total area of 200 μm×200 μm. We will also show the obtained enhanced efficiency of... (More); New emerging technologies such as nanoimprint lithography (NIL) offers the biosensor research community the possibility to fabricate low-cost biodevices having nanometer dimensions. Such nanosized devices can be applied as biosensors where new functions might emerge due to the nanoscale dimensions. In this paper we will discuss various nanolithography methods as well as the benefits of going to the nanoscale for biosensor applications. We will also show results from mixed NIL and UV-lithography for fabrication of interdigitated nanobiosensor electrodes on up to 6'' large Si wafers. The electrode and inter-electrode distances were 100 nm wide over a total area of 200 μm×200 μm. We will also show the obtained enhanced efficiency of redox-recycling when utilizing such nanoscaled biosensors (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/610460

author

Montelius, Lars ^LU ; Beck, Marc ^LU ; Ling, T. ; Carlberg, Patrick ^LU ; Graczyk, Mariusz ^LU ; Maximov, Ivan ^LU and Sarwe, Eva-Lena ^LU

organization

Solid State Physics

publishing date

2002

type

Chapter in Book/Report/Conference proceeding

publication status

published

subject

Condensed Matter Physics

keywords

interelectrode distances, Si wafers, interdigitated nanobiosensor electrodes, UV lithography, nanolithography, nanosized devices, nanometer dimensions, low cost biodevices, biosensor, nanoimprint lithography, sensor array fabrication, nanotechnology, Si, SiO<sub>2</sub>-Si, 100 nm, 200 micron, 6 inch, redox recycling

host publication

7th International Conference on Nanometer-Scale Science and Technology and 21st European Conference on Surface Science

pages

2 pages

publisher

Lund University

conference name

Proceedings of 7th International Conference on Nanometer-Scale Science and Technology and 21st European Conference on Surface Science (NANO-7/ECOSS-21)

conference location

Malmö, Sweden

conference dates

2002-06-24 - 2002-06-28

language

English

LU publication?

yes

id

696750b9-9ce9-42f6-9238-c3da826d1341 (old id 610460)

date added to LUP

2016-04-04 11:11:05

date last changed

2018-11-21 21:03:11

@inproceedings{696750b9-9ce9-42f6-9238-c3da826d1341,
  abstract     = {{New emerging technologies such as nanoimprint lithography (NIL) offers the biosensor research community the possibility to fabricate low-cost biodevices having nanometer dimensions. Such nanosized devices can be applied as biosensors where new functions might emerge due to the nanoscale dimensions. In this paper we will discuss various nanolithography methods as well as the benefits of going to the nanoscale for biosensor applications. We will also show results from mixed NIL and UV-lithography for fabrication of interdigitated nanobiosensor electrodes on up to 6'' large Si wafers. The electrode and inter-electrode distances were 100 nm wide over a total area of 200 μm×200 μm. We will also show the obtained enhanced efficiency of redox-recycling when utilizing such nanoscaled biosensors}},
  author       = {{Montelius, Lars and Beck, Marc and Ling, T. and Carlberg, Patrick and Graczyk, Mariusz and Maximov, Ivan and Sarwe, Eva-Lena}},
  booktitle    = {{7th International Conference on Nanometer-Scale Science and Technology and 21st European Conference on Surface Science}},
  keywords     = {{interelectrode distances; Si wafers; interdigitated nanobiosensor electrodes; UV lithography; nanolithography; nanosized devices; nanometer dimensions; low cost biodevices; biosensor; nanoimprint lithography; sensor array fabrication; nanotechnology; Si; SiO<sub>2</sub>-Si; 100 nm; 200 micron; 6 inch; redox recycling}},
  language     = {{eng}},
  publisher    = {{Lund University}},
  title        = {{Next generation nanotechnologies for sensor array fabrication}},
  year         = {{2002}},
}

Lund University Publications

LUND UNIVERSITY LIBRARIES

Next generation nanotechnologies for sensor array fabrication