«MAY
OCT
NOV »
3
«2018
2019
2020 »
26 captures
3 Mar 18 - 8 Oct 24
Close
Help
Česky
Search
Login english menu
Login
Web pages
IT Webmail
Intranet
English navigation
Home
About Us
Governance
Basic information
History
Presentation videos
Departments
D 1 - Fluid Dynamics
D 2 - Thermodynamics
D 3 - Dynamics and Vibration
D 4 - Impact and Waves in Solids
D 5 - Ultrasonic Methods
D 6 - Electrical Engineering and Electrophysics
CeNDYNMAT Centre
Joint Centres and Laboratories
Aerodynamic Laboratory in Nový Knín
Science Library
Research
Cooperation
Editorial activity
Scientific societies
Education
Student thesis topics
Events
Conferences & Seminars
Lectures
Institute of Thermomechanics Seminar
Awards
Career
Contacts
Contact information
Phone Directory
Ing. David Mareš
Phone
+420 266 053 017
E-mail
maresda2@it.cas.cz
Room
M2111
Department
Department D 5 - Ultrasonic Methods
Research area
Optics and Photonics, Nanophotonics, Computational Nano-Optics, Plasmonics
Curriculum vitae
Ph.D.
2012-now
CTU FEE
Topic: Optical periodic planar structures with surface shaping of the polymer layer (informatics: optical filters, sensors: plasmonics-SERS).
Ing.
2012
CTU FEE
Elektronics, fotonics, optics.
View author's publications in the ASCR database
Selected publications
http://www.researcherid.com/rid/P-3492-2018
1. BUIXADERAS, E., et. al. Acoustic phonons in unfilled tetragonal tungsten-bronze crystals. Phase Transitions (GPHT), 2018, DOI: 10.1080/01411594.2018.1499914
2. ELASHNIKOV, R., et al. Laser patterning of transparent polymers assisted by plasmon excitation Soft Matter. 2018, 14(23), 4860-4865. ISSN 1744-6848.
3. MAREŠ, D. and V. JEŘÁBEK. Polymer waveguide Bragg gratings made by laser patterning technique. Optical and Quantum Electronics. 2016, 48.
4. ELASHNIKOV, R., MAREŠ, D., et al. Sandwiched gold/PNIPAm/gold microstructures for smart plasmonics application: towards the high detection limit and Raman quantitative measurements. The Analyst. 2017, 142(16), 2974-2981.
5. KALACHYOVA, Y., MAREŠ, D., et al. Ultrasensitive and reproducible SERS platform of coupled Ag grating with multibranched Au nanoparticles. Physical Chemistry Chemical Physics. 2017, 19(22), s. 14761-14769.
6. KALACHYOVA, Y., MAREŠ, D., et al. The Effect of Silver Grating and Nanoparticles Grafting for LSP-SPP Coupling and SERS Response Intensification. The Journal of Physical Chemistry C. 2016, 120(19),10569-10577.
7.KALACHYOVA, Y., MAREŠ, D., et al. Surface Plasmon Polaritons on Silver Gratings for Optimal SERS Response. The Journal of Physical Chemistry C. 2015, 119(17), 9506-9512.
Footer menu
Credits
Webmaster
© 2008–2018 Institute of Thermomechanics of the CAS, v. v. i.
