Project information
CEITEC Nano
- Project Identification
- LM2015041
- Project Period
- 1/2016 - 12/2019
- Investor / Pogramme / Project type
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Ministry of Education, Youth and Sports of the CR
- Large Infrastructures for Research, Development and Innovation
- MU Faculty or unit
- Central European Institute of Technology
- Cooperating Organization
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Brno University of Technology
- Responsible person David Škoda, Ph.D.
The research infrastructure (hereinafter RI) CEITEC Nano provides complex conditions for the experimental research in the field of nanotechnology and nanoscience. It has been operated as a single-sited national research infrastructure “under construction” since 2012. The fully operational state of the RI is expected in 2016 when a new complex of laboratories at the Brno University of Technology Campus "Pod Palackého vrchem" will be completed and equipped with all the planned CEITEC instruments.
The RI is designed to provide access of users to fully equiped, mostly clean-room facilities for preparation and characterization of functional nanostructures and advanced materials finding their application especially in the fields of nanoelectronics, nanophotonics, energy harvesting, biosensing and biomedicine.
The RI infrastructure is quite unique in the Czech Republic and other Central European countries (e.g. Poland, Hungary and Slovakia) in terms of the completeness of the available tools and methods for nanotechnology research, and open access- and user’s “self surface” policy. It has been primarily designed as an open RI providing access to the infrastructure to internal (research teams of CEITEC) and external users (both from academia and industry) based on the first-come-first-served principle. Almost all instruments available in the RI will be directly operated by the users, thus increasing the utilization of its equipment.
Thanks to its modern design, emphasizing equal approach to fabrication and characterization methods, the RI CEITEC Nano will also provide complementary services to nanotechnology RIs abroad, where in many cases nanofabrication instruments as a rule prevail to the nanocharacterization ones. It has already become a member of the consortium “Integrating European Infrastructures for Micro-Nano Fabrications”, called EUMINAfab II, coordinated by the Karlsruhe Institute of Technology (KIT).
It is obvious, the RI will be used as a natural instrumental base for practical training and education of students.
Publications
Total number of publications: 38
2018
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PREPARATION OF [001] ORIENTED TITANIUM THIN FILM FOR MEMS APPLICATIONS BY KAUFMAN ION-BEAM SOURCE
9TH INTERNATIONAL CONFERENCE ON NANOMATERIALS - RESEARCH & APPLICATION (NANOCON 2017), year: 2018
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Titanium dioxide modified multi-walled carbon nanotubes as room temperature NH3 gas sensors
2018 IEEE SENSORS Conference, year: 2018
2017
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Detection of fluorine using laser-induced breakdown spectroscopy and Raman spectroscopy
Journal of Analytical Atomic Spectrometry, year: 2017, volume: 32, edition: 10, DOI
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Growth, Structure, and Anisotropic Optical Properties of Difluoro-anthradithiophene Thin Films
Journal of Physical Chemistry C, year: 2017, volume: 121, edition: 38, DOI
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Interband absorption edge in the topological insulators Bi-2(Te1-xSex)(3)
Physical Review B, year: 2017, volume: 96, edition: 23, DOI
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Plasma-enhanced CVD of functional coatings in Ar/maleic anhydride/C2H2 homogeneous dielectric barrier discharges at atmospheric pressure
Plasma Physics and Controlled Fusion, year: 2017, volume: 59, edition: 3, DOI
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Serious chronic disease of the cervical spine and trauma in young female of Middle Ages (Czech Republic)
Year: 2017, type: Appeared in Conference without Proceedings
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Stress-free deposition of [001] preferentially oriented titanium thin film by Kaufman ion-beam source
Thin Solid Films, year: 2017, volume: 638, edition: September, DOI