Vacuum FTIR Vertex80v + microscope Hyperion 3000 KIT - polarizors, VIS detector Bruker Vertex80v + Hyperion 3000 (FTIR)

Vacuum FTIR Vertex80v + microscope Hyperion 3000 KIT - polarizors, VIS detector Bruker Vertex80v + Hyperion 3000
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Guarantor: Alois Nebojsa
Technology / Methodology: Optical measurements
Instrument status: Operational Operational, 11.10.2018 15:46
Research group: CF: CEITEC Nano


Detailed description:

Instrument consists of a combination of Fourier infrared spectrometer with infrared microscope. In the spectrometer, one can perform transmission and reflection experiments on samples dimension of roughly 1 mm2 and more in the full frequency range offered by the spectrometer, 30-14 000 cm-1. The microscope is used for measurements of either small or spatially inhomogeneous samples essentially down to the diffraction limit in the far field, it means roughly 3 at 3000 cm-1. The frequency range is however limited by the microscope detectors to 600-6000 cm-1. The highlight of this microscope is the focal plane array (FPA) detector that allows simultaneous recording of 128x128 matrix of spectra in the frequency range 900-5000 cm-1.


Publications:

  • Horák, M.; Křápek, V.; Hrtoň, M.; Konečná, A.; Ligmajer, F.; Stöger-Pollach, M.; Šamořil, T.; Paták, A.; Édes, Z.; Metelka, O.; Babocký, J.; Šikola, T., 2019: Limits of Babinet’s principle for solid and hollow plasmonic antennas. SCIENTIFIC REPORTS 9(1), p. 4004-1 - 4004-11, doi: 10.1038/s41598-019-40500-1
    (TITAN, HELIOS, LYRA, MAGNETRON, FTIR, SNOM-NANONICS)
  • Michlíček, M.; Manakhov, A.; Dvořáková, E.; Zajíčková, L., 2019: Homogeneity and penetration depth of atmospheric pressure plasma polymerization onto electrospun nanofibrous mats. APPLIED SURFACE SCIENCE 471, p. 835 - 841, doi: 10.1016/j.apsusc.2018.11.148
    (LYRA, MAGNETRON, FTIR, KRATOS-XPS)
  • Ligmajer, F.; Horák, M.; Šikola, T.; Fojta, M.; Daňhel, A., 2019: Silver Amalgam Nanoparticles and Microparticles: A Novel Plasmonic Platform for Spectroelectrochemistry. THE JOURNAL OF PHYSICAL CHEMISTRY C 123(27), p. 16957 - 16964, doi: 10.1021/acs.jpcc.9b04124
    (VERIOS, TITAN, FTIR, WOOLLAM-MIR)
  • Dvořák, P., 2018: Nanophotonics. PH.D. THESIS , p. 1 - 134
    (SNOM-NANONICS, LYRA, TERS, EVAPORATOR, FTIR, WOOLLAM-VIS)
  • Brinek, L; Kvapil, M; Samoril, T; Hrton, M; Kalousek, R; Krapek, V; Spousta, J; Dub, P; Varga, P; Sikola, T, 2018: Plasmon Resonances of Mid-IR Antennas on Absorbing Substrate: Optimization of Localized Plasmon-Enhanced Absorption upon Strong Coupling Effect. ACS PHOTONICS 5(11), p. 4378 - 4385, doi: 10.1021/acsphotonics.8b00806
    (LYRA, FTIR)

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