Development of Nanoimprint Lithography for Fabrication of Electrochemical Transducers

Beck, Marc

Development of Nanoimprint Lithography for Fabrication of Electrochemical Transducers

Mark

Beck, Marc ^LU (2003)

Abstract: This thesis gives an overview about the current status of nanoimprint lithography, a relatively new nanofabrication tool. The technology is capable for parallel mass production of nm-structured features having a resolution below 10 nm and is usable with high throughput on full wafer scale. The thesis is mainly divided into two parts dealing with nanoimprint lithography and electrochemistry.

The work concerns the development of reliable and reproducible imprint processes, e.g. for fabrication of nm-structured interdigitated array electrodes usable in (bio-) electrochemical sensor applications. Such electrodes can be used for measuring electrochemical processes such as redox cycling, which become addressable when the... (More); This thesis gives an overview about the current status of nanoimprint lithography, a relatively new nanofabrication tool. The technology is capable for parallel mass production of nm-structured features having a resolution below 10 nm and is usable with high throughput on full wafer scale. The thesis is mainly divided into two parts dealing with nanoimprint lithography and electrochemistry.

The work concerns the development of reliable and reproducible imprint processes, e.g. for fabrication of nm-structured interdigitated array electrodes usable in (bio-) electrochemical sensor applications. Such electrodes can be used for measuring electrochemical processes such as redox cycling, which become addressable when the electrode distance becomes smaller than the diffusion layer thickness at the electrode/electrolyte interface. The process development addresses several issues such as: (i) Production of nanoimprint stamps/molds with electron beam and UV-lithography. (ii) Evaluation of new polymers especially developed for nanoimprint lithography. (iii) Anti-adhesion treatment of different imprint molds with molecular layers and (iv) their characterization with photoelectron spectroscopy. (v) Development of post-imprint processes for substrate etching or metal lift-off. (vi) Deposition of non-corroding alternative organic adhesion promoters for gold on silicon dioxide. (vii) Evaluation of fluorescence microscopy as a tool for quality control in industrial nanoimprint processes.

The electrochemistry part deals mainly with theoretical electrochemistry as we teach it in the biophysics course given at the department and is supposed to be used as course literature. Parallel to the NIL process development electrochemical equipment was built and evaluated with some standard measurements presented in this thesis. The outcome of this development was used to build a more advanced instrument suitable for redox cycling with nm-structured electrodes. First results with nm-structured electrodes are compared with mm-structured ones. (Less)
Abstract (Swedish): Popular Abstract in Swedish

Avhandlingen ger en överblick över dagens status inom nanoimprintlitografi. Teknologin ger möjlighet att framställa nm-strukturer med en upplösning bättre än 10 nm och kan användas för massproduktion av hela wafers.

Avhandlingen beskriver utvecklingen av reproducerbara imprintprocesser som t.ex. kan användas för framställning av nm-strukturerade fingerelektroder. Dessa har ett stort användningsområde för tillverkning av framtida (bio-)elektrokemiska sensorer. Processutvecklingen beskriver framställning av imprintstämplar, utvärdering av nya imprintpolymerer, "anti-stick"-behandling med molekylära monolager samt karakterisering av desamma med fotoelektronspektroskopi, utveckling... (More); Popular Abstract in Swedish

Avhandlingen ger en överblick över dagens status inom nanoimprintlitografi. Teknologin ger möjlighet att framställa nm-strukturer med en upplösning bättre än 10 nm och kan användas för massproduktion av hela wafers.

Avhandlingen beskriver utvecklingen av reproducerbara imprintprocesser som t.ex. kan användas för framställning av nm-strukturerade fingerelektroder. Dessa har ett stort användningsområde för tillverkning av framtida (bio-)elektrokemiska sensorer. Processutvecklingen beskriver framställning av imprintstämplar, utvärdering av nya imprintpolymerer, "anti-stick"-behandling med molekylära monolager samt karakterisering av desamma med fotoelektronspektroskopi, utveckling av processer för mönsteröverföring efter tryckningen, deponering av ett molekylärt lager som adhesionsskikt mellan guld och kiseldioxid och utvärdering av fluorescensmikroskopi som verktyg för kvalitetskontroll inom nanoimprintlitografi.

Elektrokemidelen i avhandlingen syftar till använding såsom kurslitteratur för biofysikkursen som ges på avdelningen. Initiala mätresultat med nm-strukturerade fingerelektroder redovisas för. (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/465994

author

Beck, Marc ^LU

supervisor

[unknown] [unknown]

opponent

Dr Gobrecht, Jens, Paul Scherrer Institut, Villigen, Schweiz

organization

Solid State Physics

publishing date

2003

type

Thesis

publication status

published

subject

Condensed Matter Physics

keywords

electrochemistry, interdigitated array, anti-adhesion, anti-sticking, stamp, mold, monolayer deposition, Fysik, post-imprint processes, Physics, transducer, nanoimprint lithography, sensor, Fysicumarkivet A:2003:Beck

pages

250 pages

publisher

Division of Solid State Physics, P.O. Box 118, SE-221 00 Lund, Sweden,

defense location

Room B, Dept of Physics, Lund Institute of Technology

defense date

2003-06-13 13:15:00

language

English

LU publication?

yes

additional info

Article: I. Fabrication of Si-based nanoimprint stamps with sub-20 nmfeaturesI. Maximov, E.-L. Sarwe, M. Beck, K. Deppert, M. Graczyk, M.H. Magnusson, L. MonteliusMicroelectronic Engineering 61-62 (2002) pp.449-454 Article: II. Polymer stamps for nanoimprintingK. Pfeiffer, M. Fink, G. Ahrens, G. Gruetzner, F. Reuther, J. Seekamp, S. Zankovych, C.M. Sotomayor Torres, I. Maximov, M. Beck, M. Graczyk, L. Montelius, H. Schulz, H.-C. Scheer, F. SteingrueberMicroelectronic Engineering 61-62 (2002) pp.393-398 Article: III. Improving stamps for 10 nm level wafer scale nanoimprint lithographyM. Beck, M. Graczyk, I. Maximov, E.-L. Sarwe, T.G.I. Ling, M. Keil, L. MonteliusMicroelectronic Engineering 61-62 (2002) pp.441-448 Article: IV. Development and characterization of anti-sticking layers on silicon based stamps designed for nanoimprint lithographyM. Keil, M. Beck, T.G.I. Ling, M. Graczyk, L. Montelius, B. Heidari(submitted) Article: V. Development and characterization of anti-sticking layers on nickel based stamps designed for nanoimprint lithographyM. Keil, M. Beck, T.G.I. Ling, M. Graczyk, L. Montelius, B. Heidari(submitted) Article: VI. Nanoimprint-induced effects on electrical and optical properties of quantum well structuresS. Zankovych, I. Maximov, I. Shorubalko, J. Seekamp, M. Beck, S. Romanov, D. Reuter, P. Schafmeister, A.D. Wieck, J. Ahopelto, C.M. Sotomayor Torres, L. Monteliusin press, Microelectronic Engineering (2003) Article: VII. Nanoimprint technology for fabrication of three-terminal ballistic junction devices in GaInAs/InPI. Maximov, P. Carlberg, I. Shorubalko, D. Wallin, E-L. Sarwe, M. Beck, M. Graczyk, W. Seifert, H.Q. Xu, L. Montelius, L. Samuelsonin press, Microelectronic Engineering (2003) Article: VIII. Lift-off process for nanoimprint lithographyP. Carlberg, M Graczyk, E.-L. Sarwe, I. Maximov, M. Beck, L. Monteliusin press, Microelectronic Engineering (2003). Article: IX. Fluorescence microscopy for quality control in nanoimprint lithographyCh. Finder, M. Beck, J. Seekamp, K. Pfeiffer, P. Carlberg, I. Maximov, F. Reuther, E.-L. Sarwe, S. Zankovich, J. Ahopelto, L. Montelius, C. Mayer, C.M. Sotomayor Torresin press, Microelectronic Engineering (2003). Article: X. Fabrication and characterization of a molecular adhesive layer for micro- and nanofabricated electrochemical electrodesT.G.I. Ling, M. Beck, R. Bunk, E. Forsen, J.O. Tegenfeldt, A.A. Zakharov, L. Monteliusin press, Microelectronic Engineering (2003). Article: XI. Nanoelectrochemical transducers for (bio-) chemical sensor applications fabricated by nanoimprint lithographyM. Beck, P. Carlberg, F. Persson, M. Graczyk, I. Maximov, T.G.I. Ling, L. Montelius(submitted)

id

1e42a0bf-5ef7-498d-8636-c2e52c3daec9 (old id 465994)

date added to LUP

2016-04-04 10:28:25

date last changed

2018-11-21 20:58:57

@phdthesis{1e42a0bf-5ef7-498d-8636-c2e52c3daec9,
  abstract     = {{This thesis gives an overview about the current status of nanoimprint lithography, a relatively new nanofabrication tool. The technology is capable for parallel mass production of nm-structured features having a resolution below 10 nm and is usable with high throughput on full wafer scale. The thesis is mainly divided into two parts dealing with nanoimprint lithography and electrochemistry.<br/><br>
<br/><br>
The work concerns the development of reliable and reproducible imprint processes, e.g. for fabrication of nm-structured interdigitated array electrodes usable in (bio-) electrochemical sensor applications. Such electrodes can be used for measuring electrochemical processes such as redox cycling, which become addressable when the electrode distance becomes smaller than the diffusion layer thickness at the electrode/electrolyte interface. The process development addresses several issues such as: (i) Production of nanoimprint stamps/molds with electron beam and UV-lithography. (ii) Evaluation of new polymers especially developed for nanoimprint lithography. (iii) Anti-adhesion treatment of different imprint molds with molecular layers and (iv) their characterization with photoelectron spectroscopy. (v) Development of post-imprint processes for substrate etching or metal lift-off. (vi) Deposition of non-corroding alternative organic adhesion promoters for gold on silicon dioxide. (vii) Evaluation of fluorescence microscopy as a tool for quality control in industrial nanoimprint processes.<br/><br>
<br/><br>
The electrochemistry part deals mainly with theoretical electrochemistry as we teach it in the biophysics course given at the department and is supposed to be used as course literature. Parallel to the NIL process development electrochemical equipment was built and evaluated with some standard measurements presented in this thesis. The outcome of this development was used to build a more advanced instrument suitable for redox cycling with nm-structured electrodes. First results with nm-structured electrodes are compared with mm-structured ones.}},
  author       = {{Beck, Marc}},
  keywords     = {{electrochemistry; interdigitated array; anti-adhesion; anti-sticking; stamp; mold; monolayer deposition; Fysik; post-imprint processes; Physics; transducer; nanoimprint lithography; sensor; Fysicumarkivet A:2003:Beck}},
  language     = {{eng}},
  publisher    = {{Division of Solid State Physics, P.O. Box 118, SE-221 00 Lund, Sweden,}},
  school       = {{Lund University}},
  title        = {{Development of Nanoimprint Lithography for Fabrication of Electrochemical Transducers}},
  year         = {{2003}},
}

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Development of Nanoimprint Lithography for Fabrication of Electrochemical Transducers