All polymer, injection molded nanoslits, fabricated through two-level UV-LIGA processes

Publication: Research - peer-reviewArticle in proceedings – Annual report year: 2012

Standard

All polymer, injection molded nanoslits, fabricated through two-level UV-LIGA processes. / Østergaard, Peter Friis; Matteucci, Marco; Marie, Rodolphe ; Kristensen, Anders; Taboryski, Rafael J.

Nanotech 2012 Vol. 2 Nanotechnology 2012: Electronics, Devices, Fabrication, MEMS, Fluidics and Computational. Vol. 2 2012. p. 482-485.

Publication: Research - peer-reviewArticle in proceedings – Annual report year: 2012

Harvard

Østergaard, PF, Matteucci, M, Marie, R, Kristensen, A & Taboryski, RJ 2012, 'All polymer, injection molded nanoslits, fabricated through two-level UV-LIGA processes'. in Nanotech 2012 Vol. 2 Nanotechnology 2012: Electronics, Devices, Fabrication, MEMS, Fluidics and Computational. vol. 2, pp. 482-485.

APA

Østergaard, P. F., Matteucci, M., Marie, R., Kristensen, A., & Taboryski, R. J. (2012). All polymer, injection molded nanoslits, fabricated through two-level UV-LIGA processes. In Nanotech 2012 Vol. 2 Nanotechnology 2012: Electronics, Devices, Fabrication, MEMS, Fluidics and Computational. (Vol. 2, pp. 482-485)

CBE

Østergaard PF, Matteucci M, Marie R, Kristensen A, Taboryski RJ. 2012. All polymer, injection molded nanoslits, fabricated through two-level UV-LIGA processes. In Nanotech 2012 Vol. 2 Nanotechnology 2012: Electronics, Devices, Fabrication, MEMS, Fluidics and Computational. pp. 482-485.

MLA

Østergaard, Peter Friis et al. "All polymer, injection molded nanoslits, fabricated through two-level UV-LIGA processes". Nanotech 2012 Vol. 2 Nanotechnology 2012: Electronics, Devices, Fabrication, MEMS, Fluidics and Computational. 2012. 482-485.

Vancouver

Østergaard PF, Matteucci M, Marie R, Kristensen A, Taboryski RJ. All polymer, injection molded nanoslits, fabricated through two-level UV-LIGA processes. In Nanotech 2012 Vol. 2 Nanotechnology 2012: Electronics, Devices, Fabrication, MEMS, Fluidics and Computational. Vol. 2. 2012. p. 482-485.

Author

Østergaard, Peter Friis; Matteucci, Marco; Marie, Rodolphe ; Kristensen, Anders; Taboryski, Rafael J. / All polymer, injection molded nanoslits, fabricated through two-level UV-LIGA processes.

Nanotech 2012 Vol. 2 Nanotechnology 2012: Electronics, Devices, Fabrication, MEMS, Fluidics and Computational. Vol. 2 2012. p. 482-485.

Publication: Research - peer-reviewArticle in proceedings – Annual report year: 2012

Bibtex

@inbook{24c877b5b2ff44379c7e341f7551f28e,
title = "All polymer, injection molded nanoslits, fabricated through two-level UV-LIGA processes",
keywords = "UV-LIGA, Nanoslits, Polymer Chips",
author = "Østergaard, {Peter Friis} and Marco Matteucci and Rodolphe Marie and Anders Kristensen and Taboryski, {Rafael J.}",
year = "2012",
volume = "2",
isbn = "978-1-4665-6275-2",
pages = "482-485",
booktitle = "Nanotech 2012 Vol. 2 Nanotechnology 2012: Electronics, Devices, Fabrication, MEMS, Fluidics and Computational",

}

RIS

TY - GEN

T1 - All polymer, injection molded nanoslits, fabricated through two-level UV-LIGA processes

A1 - Østergaard,Peter Friis

A1 - Matteucci,Marco

A1 - Marie,Rodolphe

A1 - Kristensen,Anders

A1 - Taboryski,Rafael J.

AU - Østergaard,Peter Friis

AU - Matteucci,Marco

AU - Marie,Rodolphe

AU - Kristensen,Anders

AU - Taboryski,Rafael J.

PY - 2012

Y1 - 2012

N2 - Micro- and nanofluidic systems fabricated in silicon and glass substrates are expensive and have long production cycles. To minimize the time used by researchers to fabricate their systems, rather than using them, medium to high volume throughput of specific chips, containing fluidic channels in the micro- and nanoregime is required. To obtain this, injection molding is included in the research process for making several chips (100-1000) with the same layout. The time it takes for the individual chip to be fabricated in this way is much shorter than with conventional cleanroom methods, and the price is equally lower. Optimization of the final chip is explored, by looking at which aspects ratios are possible to obtain in polymer chips. Finally, signal to noise ratio of the chips used for fluorescent experiments is investigated, by an expected reduction of the excitation of fluorescent states in the polymer with the use of chips in different colors.

AB - Micro- and nanofluidic systems fabricated in silicon and glass substrates are expensive and have long production cycles. To minimize the time used by researchers to fabricate their systems, rather than using them, medium to high volume throughput of specific chips, containing fluidic channels in the micro- and nanoregime is required. To obtain this, injection molding is included in the research process for making several chips (100-1000) with the same layout. The time it takes for the individual chip to be fabricated in this way is much shorter than with conventional cleanroom methods, and the price is equally lower. Optimization of the final chip is explored, by looking at which aspects ratios are possible to obtain in polymer chips. Finally, signal to noise ratio of the chips used for fluorescent experiments is investigated, by an expected reduction of the excitation of fluorescent states in the polymer with the use of chips in different colors.

KW - UV-LIGA

KW - Nanoslits

KW - Polymer Chips

SN - 978-1-4665-6275-2

VL - 2

BT - Nanotech 2012 Vol. 2 Nanotechnology 2012: Electronics, Devices, Fabrication, MEMS, Fluidics and Computational

T2 - Nanotech 2012 Vol. 2 Nanotechnology 2012: Electronics, Devices, Fabrication, MEMS, Fluidics and Computational

SP - 482

EP - 485

ER -