Maria Katsikini, Professor
Maria Katsikini

Maria Katsikini
Professor

DEPARTMENT OF CONDENSED MATTER AND MATERIALS PHYSICSSCHOOL OF PHYSICSFACULTY OF SCIENCESARISTOTLE UNIVERSITY OF THESSALONIKI54124,THESSALONIKI

Academic Field

Optical properties of solids and spectroscopy of solids

Courses

Laboratories & Divisions

Research Activity

By using spectroscopic techniques (Raman, IR, absorption, Photoluminescence) and the synergy of theoretical calculations (phenomenological models, first-principles calculations, group theory) the optical properties of a wide range of materials (semiconductors, fullerenes, carbon nanotubes, garnets, low-dimensional materials etc.) are studied. These techniques and theoretical methods are utilized for materials characterization (identification of polytypes and phases, crystallinity, presence of mechanical stress/strain, chemical functionalization, electronic doping etc.) as well as for the study of fundamental physical phenomena (electron-phonon interaction, Kohn anomalies, immediate neighboring interactions etc.).

Moreover, the influence of external perturbations (temperature, uniaxial or biaxial mechanical deformation, hydrostatic pressure, electrochemical doping etc.) modifies drastically the optical properties of a material providing, thus, information on the physical phenomena themselves and allows the investigation of structural stability and the study of pressure induced structural or electronic phase transitions of materials.

  • Indicative activities:
    1. Study of optical properties under normal conditions, high pressure and as a function of temperature of materials such as semiconductors (ΙΙΙ-V, II-VI), fullerenes and related compounds, chemically modified carbon nanotubes and scheelite compounds (ABO4, Α = Ca, Sr, Ba and B = W, Mo).
    2. Study of the optical properties of two-dimensional materials such as graphene (single or multilayers), BN, transition metal dichalcogenides (MoS2, WS2, Mo1-xWxS2, MoSe2) as a function of their interaction with various substrates, physical or chemical electronic doping, mechanical deformation and hydrostatic pressure.
    3. Study of III-V nitrides (AlN, Gan, InN and their alloys) using Raman spectroscopy: effect of ion implantation and doping as well as of the stresses induced during the epitaxial growth.
    4. Lattice dynamics of the rare earth aluminum and gallium garnets in a crystal form and as solid solutions (RE3Al5O12 and RE3Ga5O12, RE=rare earth).
  • Equipment:
    1. Raman and photoluminescence set-up consisted of a triple monochromator (DILOR ΧΥ) with gratings of 1800 lines/mm and a CCD (EG&G 1433-C) liquid-nitrogen-cooled detector.
    2. Raman spectrometer RAMALOG 5 equipped with a Peltier-cooled photomultiplier tube with GaAs photocathode and a triple-monochromator that covers the wavelength range 12000 – 28000 cm-1 (8500-3500Å), fully automated and PC controlled.
    3. Two Ar+ Lasers of Spectra Physics 2W.
    4. One Kr Laser of Lexel 1.5 W.
    5. One cryostat accompanied by a diffusion pump of Cryogenic that works down to 20 K.
    6. Gas membrane driven diamond anvil cells, micro-tensiometers for the application of mechanical deformation (uniaxial, biaxial).

 

RESEARCHERS

Study of the nanostructure (nearest neighbor distances, coordination numbers and bond angles) as well as optical properties (density of unoccupied states) in the soft and hard x-ray spectral region using x-ray absorption spectroscopies EXAFS & NEXAFS.

Elemental mapping using the x-ray fluorescence spectroscopy (XRF mapping) and micro XAFS. The samples under study are:
i) compounds of Si (mainly SiNx)
ii) group III nitrides (GaN, AlN, InN and their alloys)
iii) glasses and glass ceramics containing solid wastes (information on the sample preparation can be found in the web page of WFENV-NET http://web.auth.gr/wfenv-net
iv) biological samples for the determination of the trace element concentration

Moreover, inelastic X-ray (and alternatively neutron) scattering for the study of dispersion curves and the density of states of crystalline solids can be conducted.

The measurements are conducted at Synchrotron Radiation facilities:
BESSY http://www.hasylab.de,
HASYLAB http://www.bessy.de,
ELETTRA http://www.elettra.trieste.it,
ESRF http://www.esrf.fr.

Webpage

RESEARCHERS

© 2018 SCHOOL OF PHYSICS, AUTH.