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stdClass Object ( [nazev] => Transition Metal Oxide Materials [seo_title] => Transition Metal Oxide Materials – homepage [seo_desc] => [autor] => [autor_email] => [obsah] =>

Mixed transition metal oxides form a wide group of inorganic materials, which due to their specific properties given by the electron configuration and the character of the valence electrons, find extensive use as materials for electronics, energy applications, chemical catalysis etc.

Group Profile

In our laboratory, we study technology of preparation of mixed oxides of transition metals (TM and RE) and their properties. Our attention is focused, in particular, on high-temperature superconductors, layered cobalt oxides for high temperature thermoelectric conversion, manganite perovskites with giant magnetoresistance, ZnO doped with magnetic impurities, niobates and tantalates for ferroelectric memories and optoelectronics or lanthanides-doped oxides for use in LEDs or scintillation technologies. Our aim is to find relationships between chemical composition, structure and the resulting properties of these materials.

Our research is supported by grants from the Technology Agency of the Czech Republic, the Czech Academy of Sciences, and RVO Ministry of Education Youth and Sports of the Czech Republic funds.

Research Team

Group Head

assoc. prof. Ing. Kateřina Rubešová, Ph.D.

Research Team

Ing. Vít Jakeš, Ph.D.
Ing. Tomáš Thoř
Ing. Vilém Bartůněk, Ph.D.
Ing. Ladislav Nádherný, Ph.D.

Collaboration with:

prof. Dr. Ing. David Sedmidubský
prof. Ing. Miloš Nevřiva, DrSc.
prof. Ing. Jindřich Leitner, DrSc.
Ing. Ondřej Jankovský, Ph.D.
Ing. Tomáš Hlásek, Ph.D.

Ph.D. students

Ing. Václav Doležal
Ing. Tomáš Thoř
Ing. Jan Havlíček
Ing. Kateřina Zloužeová

Bc. and MSc. students

Bc. Tomáš Chvojka
Bc. Herbert Kindl
Bc. Vojtěch Ševčík
Bc.Karin Paurová
Matyáš Jandík
Stela Kašperanová
Jiří Prikner

Technician

Jakub Brož

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Our laboratory is equipped with devices for the preparation of bulk materials and coatings and instrumentation for a basic characterization of polycrystalline materials – phase analysis and optical properties. Other ways of characterization can be performed within the Department of Inorganic Chemistry (Instrumentation of the Department) or in cooperation with other institutions.

Spin-coater, dip-coater
Vacuum furnace up to 1700 °C and 10^–7 Pa
High-temperature furnace for the synthesis of solids
High-temperature furnaces for the synthesis of solids with a controlled atmosphere
Glove box
X-ray diffractometer for polycrystalline materials
X-ray fluorescence WD spectrometer
Fiber spectrometer for the UV-Vis range

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Spin coater

Our laboratory is equipped with a spin-coater type WS-650SZ-6NPP / LITE from Laurell Technologies Corporation.

Technical parameters

Atmosphere	Nitrogen (vacuum system for substrate attachment)
Ramp / rotation / stopping time	1 s – 99 h 59 min
Substrate rotation speed	1 – 8,000 rot. min^–1
Acceleration / deceleration	2 – 10,000 rot. min^–2

◳ spin-coating (jpg) → (výška 215px) The spin-coating method is used to deposit thin films of a thickness ranging from nanometers to micrometers onto flat substrates. The films are prepared from volatile solutions or suspensions. The method is widely used in both laboratory and industrial spheres. The principle is to apply a small volume of solution to the center of a horizontally attached substrate and then to rotate it up to several thousand revolutions per minute. Centrifugal forces cause the solution to spread evenly over the entire surface of the substrate, with the excess of the solution flowing over its edge. When applied repeatedly, a thin film is produced.

By subsequent annealing, a crystalline film with desired properties can be prepared. The great advantages of this method are low technological difficulty, simplicity and reproducibility.

Dip coater

Our laboratory has a dip-coater type RDC21-K from Bungard Elektronik GmbH.

Technical parameters

Working atmosphere	air
Maximum substrate weight	5 kg
Maximum lift height	580 mm
Handling speed	3 – 7,000 mm min^–1 or 1.5 – 3,500 mm min^–1
The speed of immersion / pulling	3 – 2,500 mm min^–1 or 1.5 – 1,750 mm min^–1
Dive / pull time	1 s – 99 h 59 min

◳ dip-coater (jpg) → (výška 215px) Dip-coating is a method that allows a thin layer to be prepared on both sides of a substrate at once. The principle of the method lies in the vertical immersion of the substrate into the solution for a certain period. Subsequently, the substrate is emerged with a defined velocity, with the excess solution flowing back into the vessel and evaporating the excess solvent. Repeating the wetting cycles of the solution results in a thicker layer that remains on the substrate surface. Sometimes the wedge effect can be observed, which is an asymmetry in the thickness of the layer on the bottom and top of the substrate. The deposited layer is further heat-treated. The dip-coating method is characterized by its low financial demands and easy preparation of the layers.

High-temperature furnace for solid phase synthesis

Tube furnace for sintering in vacuum (up to 10^–7 Pa) or in a chosen atmosphere, up to 1700 °C
Muffle furnaces for temperatures up to 1600 ° C (air) and tube furnaces for sintering in diferent atmospheres (up to 1200 °C)

X-ray diffractometer for polycrystalline materials

Bruker-Phaser 2^nd Generation XRD for polycrystalline samples

Diffractometer with Co X-ray lamp ( λ [Co K-α1] = 1.789 · 10^–1 nm)
Cu lamps as an X-ray source are also available at the Department of Inorganic Chemistry.

◳ Bruker Phaser 2 inside1 (jpg) → (ořez 215*215px)

X-ray fluorescence WD spectrometer

SPECTROSCAN MAKV-GVM (Spectron)

Sequential wavelength dispersive X-ray fluorescence spectrometer for elemental analysis of powders, films, pelets, pearls and liquids in the range of Na-U.

Pd X-ray lamp with a max. power of 160 W
4 analyzing crystals (LiF, graphite, PET, RbAP) in a Johanson geometry
Xe gaseous proportional counter detecting simultaneously in two orders of spectrum
sample changer with 10 slots

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Offered topics of students theses

If you are interested in any of the topics presented below, do not hesitate to visit us in the A210c or A207 laboratory. You can contact us also by e-mail: rubesovk@vscht.cz

Ceramic precursors of hafnium mixed oxides used in single crystal growth by

Optical Floating Zone

Hafnium oxides have a remarkably high material density and effective proton number; both properties are important for hard radiation capture. Unfortunately, these properties also mean high melting points, which means that single crystals can be prepared only by crucible-less methods. One such method is melting in optical furnace, for which the student will be preparing ceramic preforms. This work is a collaboration with the Institute of Physics of the Czech Academy of Sciences and IKZ Berlin.

Preparation and study of new alkali-lead halide single crystals for scintillation and laser applications

Halogen matrices, undoped or rare-earth-doped, will be grown by micro-pulling-down and vertical Bridgeman methods. These materials are currently studied for their suitable optical properties with a broad application potential, including scintillators, lasers, light convertors etc. This work is a collaboration with the Institute of Physics of the Czech Academy of Sciences.

◳ Dept27_VTFig4c (png) → (ořez 215*215px)

Thin films of optically active perovskite-like phases for the construction of magneto-optical or electro-optical composites

The aim of this work is to optimize the growth of perovskite phases doped with rare earths and to synthesize heterogeneous structures, for instance with nano-diamond.

This work is a collaboration with the research group of assoc. prof. Nekvindová.

◳ thin film (jpg) → (originál)

Perovskite-like oxides synthesized by Spark Plasma Sintering

Cubic materials based on perovskites doped with d- and f-elements are promising luminescence materials due to their properties. This work focuses on preparation of oxides by means of SPS. Various methods of synthesis of precursor powders will be tested: co-precipitation, sol-gel, hydrothermal growth. This work is a collaboration with the Institute of Physics of the Czech Academy of Sciences.

◳ SPS_LA (jpg) → (ořez 215*215px)

Single-crystal growth of scintilation materials and their characterization

This work is focused on preparation of scintillators based on multicomponent garnets doped with Ce or Pr that will eventually be grown as single crystals by micro-pulling-down (mPD). The research will aim at incorporating ions that can affect the density of the material and also the band gap width and luminescent and scintillating properties. This work is a collaboration with the Institute of Physics of the Czech Academy of Sciences.

Synthesis of Li-based mixed oxides applicable in neutrons detection

Multicomponent silicate or borate structures applicable in the detection of thermal neutrons

Both works will focus on the synthesis and testing of mixed oxides of lithium or boron that can be prepared as single crystals and used for the construction of thermal neutrons detector. Alternatively, these lithium- or boron-based materials can be prepared as dense ceramics by SPS. This work is a collaboration with the Institute of Physics of the Czech Academy of Sciences.

◳ borates (jpg) → (šířka 215px)

Ferrite ceramics (doped with lanthanides) sintered by SPS technology

The aim of this work is the synthesis and characterization of nanopowders based on the Fe-Co-X-O system. These precursors will be then sintered by the SPS technology. This work also comprises structure and magnetic analysis.

Spark plasma sintering - Wikipedia

Get more information from the supervisor

Layered (Ln,Ca)Mn₂O₇ manganites for magnetic application

The aim of this work is to develop a method for stabilization of the layered phase, measurement of its magnetics properties and their modification by magnetic dopants (lanthanides or transition elements). This work is an experimental research work for the field of magnetic cooling.

Get more information from the supervisor

Sol-gel preparation of transition metal oxides as pinning centers in YBaCuO superconductors

Ongoing Student Work

Sesquioxides doped with lanthanides for use in scintillation technology, Tomáš Thoř (PhD student)
Preparation and crystal growth of scintillating materials based on alkali halides and study of new doping concepts, Kateřina Křehlíková (PhD student)
Rare-earth perovskite structures as a suitable matrix for scintillation use, Jan Havlíček (PhD student)
Oxides doped with lanthanides for magneto-optical aplications, Václav Doležal, (PhD student)
Luminescent materials for multi-purpose applications: How to enhance the properties, Karin Paurová, (MSc student)
Hydrothermal deposition of thin layers of perovskite phases, Herbert Kindl, (MSc student)
Aluminates of alkali earth metals suitable for transparent ceramics synthesis, Vojtěch Ševčík, (MSc student)
Sol-gel deposition of thin layers of perovskite phases for functional composites, Stela Kašperanová, (Bc student)
Cerium-doped hafnium oxides and their recrystallization by means of OFZ, Jiří Prikner, (Bc student)
Preparation of dense aluminate ceramics by means of SPS, Matyáš Jandík, (Bc student)

Defended students' works

Doctoral theses

Optically active thin layers preparation by sol-gel method, 2020, Dana Mikolášová (supervisor: Kateřina Rubešová, Ph.D.)
Optically active ytterbium garnets for waveguide applications, 2016, Tomáš Hlásek (supervisor: Kateřina Rubešová, Ph.D.)
Study of properties of superconducting materials, 2012, Vilém Bartůněk (supervisor: Olga Smrčková, CSc.)
Properties of Bi(Pb)-Sr-Ca-Cu-O Superconductors with Anionic Substitutions, 2010, Vít Jakeš (supervisor: Dagmar Sýkorová, CSc.)

Diploma theses

Preparation of multi-component garnet-based structures for the detection of high-energy radiation, 2022, Bc. Fedor Levchenko (supervisor: Kateřina Rubešová, Ph.D.)
Nanostructured ferrites and manganites doped with lanthanides for magnetic applications, 2021, Bc. Lukáš Blažek (supervisor: Ladislav Nádherný, Ph.D.)
Preparation of oxide ceramics using SPS, 2019, Bc. Jan Havlíček (supervisor: Kateřina Rubešová, Ph.D.)
Hexagonal aluminates doped for detection of high-energy sources, 2018, Bc. Václav Doležal (supervisor: Ladislav Nádherný, Ph.D.)
Preparation of thin layers Er: YbAG by spin-coating method, 2016, Bc. Vojtěch Polák (supervisor: Vít Jakeš, Ph.D.)
Preparation of BaTiO₃ ferroelectric for use in MRI diagnostics, 2014, Bc. Petra Bačová (supervisor: Kateřina Rubešová, Ph.D.)
Determination of oxygen content in mixed oxides of cobalt, 2013, Bc. Nikola Bašinová (supervisor: Vít Jakeš, Ph.D.)
Influence of preparation conditions on microstructure and optical properties of thin films LiNbO₃, 2014, Bc. Dana Mikolášová (supervisor: Kateřina Rubešová, Ph.D.)
Preparation of LiNbO₃ by sol-gel method for PLD targets, 2012, Bc. Jakub Erben (supervisor: Vít Jakeš, Ph.D.)
Cobalt oxide thermoelectricity prepared from sol-gel precursors, 2011, Bc. Tomáš Hlásek (supervisor: Kateřina Rubešová, Ph.D.)
Thin layers of LiNbO₃ prepared by sol-gel methods in non-aqueous environment, 2011, Bc. Martina Chvalová (supervisor: Kateřina Rubešová, Ph.D.)

Bachelor theses

Thin films of gadollinium-doped garnet for the detection of ionizing radiation, 2023, Tomáš Chvojka (supervisor: Kateřina Rubešová, Ph.D.)
Scintilation response of oxides based on PbHfO₃ and its substitution derivatives, 2022, Herbert Kindl (supervisor: Kateřina Rubešová, Ph.D.)
Hydrothermal method used at perovskite phases preparation, 2022, Karin Paurová, (supervisor: Kateřina Rubešová, Ph.D.)
Lu₂Hf₂O₇ as a material for the detection of hard radiation, 2022, Vojtěch Ševčík (supervisor: Vít Jakeš, Ph.D.)
LiAl₅O₈:V mixed oxide for thermal neutrons detection, 2021, Johana Melzerová (supervisor: Vít Jakeš, Ph.D.)
Improvement of Ce:YAG scintillation parameters using co-doping, 2020, Fedor Levchenko (supervisor: Kateřina Rubešová, Ph.D.)
Nanoparticles of ZnO doped with transition metals, 2019, Lukáš Blažek (supervisor: Ladislav Nádherný, Ph.D.)
Optimization of the spin-coating method for deposition of oxide layers in optical quality, 2018, Tomáš Tomaško (supervisor: Ladislav Nádherný, Ph.D.)
Effects of oxidation state and concentration of cerium in YAG on radioluminescent properties, 2017, Jan Havlíček (supervisor: Kateřina Rubešová, Ph.D.)
Preparation and characterization of ErNbO₄ and YbNbO₄thin films, 2013, Vojtěch Polák (supervisor: Vít Jakeš, Ph.D.)
Chemistry and energy production (research work), 2011, Dana Mikolášová (supervisor: Dagmar Sýkorová, CSc.)
History and Current State of Synthesis of Artificial Diamonds (research work), 2010, Nikola Bašinová (supervisor: Vít Jakeš, Ph.D.)
Effect of chelating agents on the stability of Bi-Pb-Sr-Ca-Cu gel and subsequent preparation Bi-2223, 2009, Tomáš Hlásek (supervisor: Kateřina Rubešová, Ph.D.)
Preparation and analytical determination of Nb(V+) solutions for the subsequent sol-gel preparation of LiNbO₃, 2009, Martina Chvalová (supervisor: Kateřina Rubešová, Ph.D.)
High-temperature superconductors – processing for practical use (literature research work) 2009, Jakub Erben (supervisor doc. Ing. Olga Smrčková, CSc.)
Ca,Sr-Cu mixed oxide preparation using sol-gel methods, influence of vanadium substitution on its properties, 2007, Pavol Zvonček (supervisor Kateřina Rubešová, Ph.D.)

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Publications

2023

V. Doležal, V. Jakeš, J. Petrášek, P. Ctibor, O. Jankovský, K. Rubešová: Dielectric properties of (Eu,Ca)Cu₃Ti₄O₁₂ ceramics prepared by a sol-gel method. Journal of Physics and Chemistry of Solids 178 (2023) 111334.

2022

V. Jakeš, J. Havlíček, F. Průša, R. Kučerková, M. Nikl, K. Rubešová: Translucent LiSr₄(BO₃)₃ ceramics prepared by spark plasma sintering. Ceramics International 48 (2022) 15785.
K. Rubešová, V. Jakeš, O. Jankovský, M. Lojka, D. Sedmidubský: Bismuth calcium cobaltite thermoelectrics: A study of precursor reactivity and its influence on the phase formation. Journal of Physics and Chemistry of Solids 164 (2022) 110631.
J. Havlíček, K. Rubešová, V. Jakeš, R. Kučerková, A. Beitlerová, M. Nikl: Basic study of ceramic lithium strontium brates as thermal neutron scintillators. Journal of the American Ceramic Society 105 (2022) 4039.
T. Thoř, K. Rubešová, V. Jakeš, R. Kučerková, M. Nikl: Preparation and luminescence characterization of Cu-doped lithium aluminate ceramics within the Li₂O-Al₂O₃ system. Journal of Sol-Gel Science and Technology 103 (2022) 898.
J. Havlíček, V. Jakeš, K. Rubešová, R. Kučerková, A. Beitlerová, M. Nikl: Heavily cerium-doped (Gd,La)AlO₃ ceramic scintillators: Material optimization study. Ceramics International 48 (2022) 34720.
L. Spejchalová, O. Jankovský, K. Rubešová, V. Jakeš, A.-M. Lauermannová, D. Sedmidubský: Solid-liquid equilibria in the Bi-Ca-Co-O system. Journal of the European Ceramic Society 42 (2022) 5756.
J. Pejchal, V. Babin, M. Buryi, V. Laguta, F. Hájek, J. Páterek, L. Procházkouvá-Prouzová, L. Havlák, V. Czerneková, V. Vaněček, V. Doležal, J. Havlíček, K.
Rubešová, P. Zemenová, A. Falvez, R. Král, V. Pankratov, K. Chernenko: Untangling the controversy on Ce³⁺ luminescence in LaAlO₃ crystals. Materials Advances 3 (2022) 3500T.
Thoř, K. Rubešová, V. Jakeš, R. Kučerková, J. Pejchal, M. Nikl: Titanium-doped LiAlO₂ ceramics for neutron scintillation. Journal of Physics: Conference Series 2413 (2022) 012015.
J. Havlíček, K. Rubešová, V. Jakeš, J. Cajzl, F. Průša, R. Kučerková, M. Nikl: Eu-doped La_1-xY_xAlO₃: Impact of Y/La ratio on optical properties. Ceramics-Silikáty 66 (2022) 78.
K. Rubešová, J. Havlíček, V. Jakeš, R. Kučerková, M. Nikl: Cerium and europium doping of Ruddlesden-Popper aluminate phases and their radioluminescence properties. Journal of Physics: Conference Series 2413 (2022) 012011.
T. Thoř, K. Rubešová, V. Jakeš, R. Kučerková, J. Pejchal, M. Nikl: Titanium-doped LiAlO₂ ceramics for neutron scintillation. Journal of Physics: Conference Series 2413 (2022) 012015.

2021

T. Thoř, K. Rubešová, V. Jakeš, D. Mikolášová, J. Cajzl, J. Havlíček, L. Nádherný, F. Průša, R. Kučerková, M. Nikl: Dense Ceramics of lanthanide-doped Lu₂O₃ prepared by spark plasma sintering. Journal of European Ceramic Society 41 (2021) 741.

2019

J. Pejchal, C. Guguschev, M. Schulze, V. Jary, E. Mihokova, K. Rubesova, V. Jakes, J. Barta, M. Nikl: Luminescence and scintillation properties of strontium hafnate and strontium zirconate single crystals. Optical Materials 98 (2019) 109494
K. Rubešová, D. Mikolášová, V. Jakeš: Bringing chemistry closer: Creating a 'living periodic table' for use in general and inorganic chemistry education. Ceramics-Silikaty 63 (2019) 413
Sedmidubský, D., V. Jakeš, K. Rubešová, P. Nekvindová, T. Hlásek, R. Yatskiv, P. Novák: Magnetism and optical properties of Yb₃Al₅O₁₂ hosted Er³⁺ – experiment and theory. Journal of Alloys and Compounds 810 (2019) 151903.
J.–C. Grivel, K. Rubešová: Increase of the critical current density of MgB₂ superconducting bulk samples by means of methylene blue dye additions. Physica C: Superconductivity and its applications 565 (2019) 1353506.
T. Thoř, K. Rubešová, V. Jakeš, J. Cajzl, L. Nádherný, D. Mikolášová, R. Kučerková, M. Nikl: Lanthanide-doped Lu₂O₃ phosphors and scintillators with green-to-red emission. Journal of Luminescence 215 (2019) 116647.
K. Rubešová, J. Havlíček, V. Jakeš, L. Nádherný, J. Cajzl, D. Pánek, T. Parkman, A. Beitlerová, R. Kučerková, F. Hájek, M. Nikl: Heavily Ce³⁺–doped Y₃Al₅O₁₂ thin films deposited by a polymer sol-gel method for fast scintillation detectors. CrystEngComm 21 (2019) 5115.
V. Doležal, L. Nádherný, K. Rubešová, V. Jakeš, A. Michalcová, O. Jankovský, M. Poupon: LaMgAl₁₁O₁₉ synthesis using non-hydrolytic sol-gel methods. Ceramics International 45 (2019) 11233.
T. Hlásek, Y. Shi, J. H. Durrell, A. R. Dennis, D. K. Namburi, V. Plecháček, K. Rubešová, D. A. Cardwell, O. Jankovský: Cost-effective isothermal top-seeded melt-growth of single-domain YBCO superconducting ceramics. Solid State Sciences 88 (2019) 74.
V. Jakeš, K. Rubešová, J. Havlíček, V. Polák, D. Sedmidubský, J. Oswald: Preparation of Er-doped Yb₃(Al,Fe)₅O₁₂ garnets. IOP Conference Series - Materials Science and Engineering 465 (2019) 012003.
T. Thoř, K. Rubešová, V. Jakeš, J. Cajzl, L. Nádherný, D. Mikolášová, A. Beitlerová, M. Nikl: Europium-doped Lu₂O₃ phosphors prepared by a sol-gel method. IOP Conference Series - Materials Science and Engineering 465 (2019) 012009.

2018

K. Rubešová, T. Thoř, V. Jakeš, D. Mikolášová, J. Maixner, O. Jankovský, J. Cajzl, L. Nádherný, A. Beitlerová, M. Nikl: Lanthanide-doped Y₂O₃ - the photoluminescent and radioluminescent properties of sol-gel prepared samples. Ceramics-Silikáty 62 (2018) 411.
D. Mikolášová, K. Rubešová, V. Jakeš, P. Nekvindová, Z. Cílová-Zlámalová, J. Oswald: Water-soluble polymers as chelating agents for the deposition of Er³⁺/Yb³⁺:LiNbO₃ waveguiding films. Journal of Sol-Gel Science and Technology 86 (2018) 274.

2017

K. Rubešová, D. Mikolášová, T. Hlásek, V. Jakeš, P. Nekvindová, P. Matějka, M. Dendisová, Z. Cílová-Zlámalová, J. Oswald: Ageing of PVP/LiNbO₃ solutions and its impact on the optical properties of Er³⁺/Yb³⁺:LiNbO₃ waveguiding films. Journal of Physics and Chemistry of Solids 111 (2017) 343.
V. Jakeš, V. Polák, K. Rubešová, T. Hlásek, D. Mikolášová, L. Nádherný, P. Nekvindová, J. Oswald: Modification of Er:YbAG film microstructure with a sintering agent. IOP Conference Series - Materials Science and Engineering 266 (2017) 012004.
D. Mikolášová, K. Rubešová, V. Jakeš, P. Nekvindová, L. Nádherný, J. Oswald: Polyethylene glycol (PEG) used in the preparation of (Er³⁺/Yb³⁺):LiNbO₃ waveguides. IOP Conference Series - Materials Science and Engineering 266 (2017) 012011.

2016

T. Hlásek, V. Polák, K. Rubešová, V. Jakeš, P. Nekvindová, O. Jankovský, D. Mikolášová, J. Oswald: Sol–gel-derived planar waveguides of Er³⁺:Yb₃Al₅O₁₂ prepared by a polyvinylpyrrolidone-based method. Journal of Sol-Gel Science and Technology 80 (2016) 531.
V. Jakeš, K. Rubešová, T. Hlásek, V. Polák, J. Oswald, L. Nádherný: Thin films of ErNbO₄ and YbNbO₄ prepared by sol–gel. Journal of Sol-Gel Science and Technology 78 (2016) 600.
K. Rubešová, D. Mikolášová, T. Hlásek, V. Jakeš, P. Nekvindová, D. Bouša, J. Oswald: Waveguiging Er³⁺/Yb³⁺:LiNbO₃ films prepared by a sol-gel method using polyvinylpyrrolidone. Journal of Luminescence 176 (2016) 260.
T. Hlásek, K. Rubešová, V. Jakeš, M. Nováček, J. Oswald, P. Fitl, J. Siegel, P. Macháč: Physical Vapor deposition of Er³⁺:Yb₃Al₅O₁₂ thin films from sol-gel derived targets. Ceramics-Silikáty 60 (2016) 285.

2015

K. Rubešová, T. Hlásek, V. Jakeš, Š. Huber, J. Hejtmánek, D. Sedmidubský: Effect of a powder compaction process on the thermoelectric properties of Bi₂Sr₂Co_1.8O_x ceramics. Journal of the European Ceramic Society 35 (2015) 525.
T. Hlásek, K. Rubešová, V. Jakeš, P. Nekvindová, M. Kučera, S. Daniš, M. Veis, V. Havránek: Structural and waveguiding characteristics of Er³⁺:Yb₃Al_5−yGa_yO₁₂ films grown by the liquid phase epitaxy. Optical Materials 49 (2015) 46.
T. Hlásek, K. Rubešová, V. Jakeš, P. Nekvindová, J. Oswald, M. Kučera, M. Hanuš: Influence of gallium on infrared luminescence in Er³⁺ doped Yb₃Al_5−yGa_yO₁₂ films grown by the liquid phase epitaxy. Journal of Luminescence 164 (2015) 90.
D. Mikolášová, K. Rubešová, T. Hlásek, V. Jakeš, J. Oswald, J. Remsa: Influence of preparation conditions on the microstructure and optical properties of LiNbO₃ thin films. Ceramics-Silikáty 59 (2015) 164.

2014

K. Rubešová, T. Hlásek, V. Jakeš, P. Matějka, J. Oswald, P. Holzhauser: Ytterbium and erbium derivatives of 2-methoxyethanol and their use in the thin film deposition of Er-doped Yb₃Al₅O₁₂. Journal of Sol-Gel Science and Technology 70 (2014) 142.
T. Hlásek, K. Rubešová, V. Jakeš, O. Jankovský, J. Oswald: Infrared luminescence in Er³⁺:Yb₃Al₅O₁₂ bulk ceramics prepared by sol-gel method. Journal of the European Ceramic Society 34 (2014) 3779.
O. Jankovský, D. Sedmidubský, K. Rubešová, Z. Sofer, J. Leitner, K. Růžička, P. Svoboda: Structure, non-stoichiometry and thermodynamic properties of Bi_1.85Sr₂Co_1.85O_7.7−δ ceramics. Thermochimica Acta 582 (2014) 40.
O. Jankovský, D. Sedmidubský, Z. Sofer, K. Rubešová, K. Růžička, P. Svoboda: Oxygen non-stoichiometry and thermodynamic properties of Bi₂Sr₂CoO_6+δ ceramics. Journal of the European Ceramic Society 34 (2014) 1219.
J.-C. Grivel, C. V. Bertelsen, N. H. Andersen, K. Kepa, T. Hlásek, K. Rubešová, H. Huhtinen, P. Paturi: Manufacture of Bi-cuprate thin films on MgO single crystal substrates by chemical solution deposition. Journal of Physics: Conference Series 507 (2014) 012017.
J.-C. Grivel, A. Alexiou, K. Rubešová, X. Tang, N. H. Andersen, M. von Zimmermann, A. Watenphul: Preparation and Characterization of Mg_1−xB₂ Bulk Samples and Cu/Nb Sheathed Wires with Low Grade Amorphous Boron Powder. Journal of Superconductivity and Novel Magnetism 27 (2014) 497.

2013

M. Jelínek, J. Oswald, T. Kocourek, K. Rubešová, P. Nekvindová, D. Chvostová, A. Dejneka, V. Železný, V. Studnička, K. Jurek: Optical properties of laser-prepared Er-and Er,Yb-doped LiNbO₃ waveguiding layers. Laser Physics 23 (2013) 105819.
V. Jakeš, K. Rubešová, J. Erben, P. Nekvindová, M. Jelínek: Modified sol-gel preparation of LiNbO₃ target for PLD. Optical Materials 35 (2013) 2540.
J.-C. Grivel, K. Kepa, T. Hlásek, N. H. Andersen, K. Rubešová: Preparation and characterization of Bi₂Sr₂CaCu₂O_8+δ thin films on MgO single crystal substrates by chemical solution deposition. Physica C-Superconductivity and Its Applications 486 (2013) 32.
M. Jelínek, V. Havránek, J. Remsa, T. Kocourek, A. Vincze, J. Bruncko, V. Studnička, K. Rubešová: Composition, XRD and morphology study of laser prepared LiNbO₃ films. Applied Physics A-Materials Science & Processing 110 (2013) 883.

2012

K. Rubešová, T. Hlásek, V. Jakeš, D. Sedmidubský, J. Hejtmánek: Bi-Sr-Co-O thermoelectrics prepared by sol-gel methods with modified gel decomposition. IOP Conference Series-Materials Science and Engineering 30 (2012) 302012.
K. Rubešová, V. Jakeš, T. Hlásek, P. Vašek, P. Matějka: Gel stabilization in chelate sol–gel preparation of Bi-2223 superconductors. Journal of Physics and Chemistry of Solids 73 (2012) 448.
D. Sedmidubský, V. Jakeš, O. Jankovský, J. Leitner, Z. Sofer, J. Hejtmánek: Phase Equilibria in Ca-Co-O system. Journal of Solid State Chemistry 194 (2012) 199.
K. Rubešová, T. Hlásek, V. Jakeš, D. Sedmidubský, J. Hejtmánek: Water based sol-gel methods used for Bi-222 thermoelectrics preparation. Journal of Sol-Gel Science and Technology 64 (2012) 93.
J. Hejtmánek, K. Knížek, M. Maryško, Z. Jirák, D. Sedmidubský, O. Jankovský, Š. Huber, P. Masschelein, B. Lenoir: Magnetic and Magnetotransport Properties of Misfit Cobaltate Ca₃Co_3.93O_9+d. Journal of Applied Physics 111 (2012) 07D715.
J. Leitner, D. Sedmidubský, K. Růžička, P. Svoboda: Heat capacity, enthalpy and entropy of SrBi₂O₄ and Sr₂Bi₂O₅. Thermochimica Acta 531 (2012) 60.

2011

V. Bartůněk, O. Smrčková: Preparation of the silver-superconductor composite by deposition of the silver nanoparticles in the bismuth cuprate superconductor. Journal of Superconductivity and Novel Magnetism 24 (2011) 1241.
J. Leitner, V. Jakeš, Z. Sofer, D. Sedmidubský, K. Růžička, P. Svoboda: Heat capacity, enthalpy and entropy of ternary bismuth-tantalum oxides, Journal of Solid State Chemistry 184 (2011) 241.
J. Leitner, M. Nevřiva, D. Sedmidubský, P. Voňka: Enthalpy of formation of selected mixed oxides in a CaO-SrO-Bi₂O₃-Nb₂O₅ system. Journal of Alloys and Compounds 509 (2011) 4940.
Z. Sofer, D. Sedmidubský, Š. Huber, J. Hejtmánek, M. Maryško, K. Jurek, M. Mikulics: Flux growth of ZnO crystals doped by transition metals. Journal of Crystal Growth 314 (2011) 123.

2010

V. Bartůněk, O. Smrčková: Preparation and size control of cerium(IV) oxide ultrafine nanoparticles. Micro Nano Letters 5 (2010) 222.
J. Leitner, P. Voňka, D. Sedmidubský, P. Svoboda: Application of Neumann-Kopp Rule for the Estimation of Heat Capacity of Mixed Oxides. Thermochimica Acta 497 (2010) 7.

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Selected conference contributions

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E-MRS 2019 Fall Meeting, 16–19 September, 2019, Warsaw, Poland.

Presentation:
K. Rubešová, D. Mikolášová, J. Havlíček, T. Hlásek, V. Jakeš, P. Nekvindová, R. Kučerková, M. Nikl, J. Oswald: Thin films for optics and optoelectronics deposited using sol-gel methods

8th International Symposium on Optical Materials, 9–14 June, 2019, Wroclaw, Poland.

Presentation:
K. Rubešová, J. Havlíček, V. Jakeš, L. Nádherný, J. Cajzl, D. Pánek, T. Parkman, A. Beitlerová, R. Kučerková, F. Hájek, M. Nikl: Heavily doped Ce:YAG thin films deposited by a sol-gel method with fast scintillation decays

Poster:
J. Havlíček, K. Rubešová, V. Jakeš, J. Cajzl, R. Kučerková, M. Nikl: Europium doped (Y, La)AlO₃ perovskites prepared as dense ceramics

D. Mikolášová, T. Thoř, K. Rubešová, V. Jakeš, J. Cajzl, L. Nádherný, R. Kučerková, M. Nikl: Pr, Dy, Tb, Eu doped Lu₂O₃ – green-to-red phosphors and scintillators

D. Mikolášová, T. Thoř, K. Rubešová, V. Jakeš, P. Nekvindová, J. Oswald: Waveguiding Er/Yb:LiNbO₃ thin films deposited using water-soluble polymers

The 2018 MRS Fall Meeting and Exhibit, 25–30 November, 2018, Boston, Massachusetts, USA.

L. Nádherný, V. Doležal, V. Jakeš, K. Rubešová: Nano-grained hexagonal LaMgAl₁₁O₁₉ doped with Ce for optical applications

The 19^th International Sol-Gel Conference, 3–8 September, 2017, Liège, Belgium.

L. Nádherný, V. Doležal, V. Jakeš, and K. Rubešová. Synthesis of hexagonal aluminate LaMgAl₁₁O₁₉ using non-hydrolytic sol-gel methods. (poster)

Development of Materials Science in Research and Education 2016, 29 August – 2 September, 2016, Pavlov, Czech Republic.

Presentation:
V. Jakeš, V. Polák, T. Hlásek, K. Rubešová, J. Oswald: Preparation of waveguiding Er:YbAG thin films by spin-coating

D. Mikolášová, K. Rubešová, V. Jakeš, T. Hlásek, J. Oswald: Use of water-soluble polymers for the (Er³⁺/Yb³⁺):LiNbO₃ thin films preparation by sol-gel method

K. Rubešová, V. Jakeš, T. Hlásek, D. Mikolášová: Perspectives on sol-gel method: crystal growth of functional materials

Sol-Gel 2015, 6–11 September, 2015, Kyoto, Japan.

Poster:
T. Hlásek, K. Rubešová, V. Jakeš, P. Nekvindová, J. Oswald: Erbium doped Yb₃Al₅O₁₂ thin films prepared by various techniques using sol-gel methods

V. Jakeš, V. Polák, K. Rubešová, T. Hlásek, J. Oswald: Thin layers of ErNbO₄ and YbNbO₄ – preparation and characterization

K. Rubešová, D. Mikolášová, T. hlásek, V. Polák, V. Jakeš, J. Oswald: Optically active thin layers prepared using polyvinylpyrrolidone polymer

Sol-Gel 2013, 25–30 August, 2013, Madrid, Spain.

Poster:
K. Rubešová, V. Jakeš, P. Nekvindová, J. Remsa, J. Oswald: Annealing effect on Er³⁺/Yb³⁺ LiNbO₃ sol-gel prepared thin films

V. Jakeš, K. Rubešová, D. Mikolášová, J. Maixner, J. Oswald: Solubility of erbium and ytterbium in LiNbO₃ thin films prepared by sol-gel deposition

T. Hlásek, K. Rubešová, V. Jakeš, D. Sedmidubský, J. Hejtmánek: Comparison of different sintering methods for the sol-gel derived precursor of thermoelectric cobaltite Bi₂Sr₂Co_0.82O_x

Development of Materials Science in Research and Education 2013, 9–13 September, 2013, Kežmarské Žĺaby, Slovakia.

Presentation:
K. Rubešová, D. Sedmidubský, B. Švecová: Innovation of general and inorganic chemistry education in ICT Prague – Operational Programme Prague–Adaptability

L. Nádherný, D. Sedmidubský, O. Jankovský, Z. Sofer, J. Leitner: Phase diagram of Zn-Mn-O system for diluted magnetic semiconductor study

V. Jakeš, N. Bašinová, K. Rubešová: Determination of oxygen content in mixed cobalt oxides

T. Hlásek, K. Rubešová, V. Jakeš, P. Matějka, P. Holzhauser: Preparation of ytterbium and erbium 2-methoxyethoxides applicable at the sol-gel synthesis of RE garnets

Development of Materials Science in Research and Education 2012, 3–7 September, 2012, Lednice, Czech Republic.

Presentation:
M. Chvalová, K. Rubešová, V. Jakeš, P. Nekvindová: Thin films of lithium niobate prepared by sol-gel method

T. Hlásek, K. Rubešová, V. Jakeš, D. Sedmidubský, J. Hejtmánek: Comparison of various wet chemical methods used for cobaltite thermoelectrics synthesis

V. Jakeš, K. Rubešová, M. Chvalová, J. erben, M. Jelínek: Optimized sol-gel synthesis of LiNbO₃ for PLD targets

K. Rubešová: Material science education at ICT Prague

E-MRS 2011 Fall Meeting, 19–23 September, 2011, Warsaw, Poland.

Presentation:
K. Rubešová, T. Hlásek, V. Jakeš, D. Sedmidubský, J. Hejtmánek: Bi-Sr-Co-O thermoelectrics prepared by sol-gel methods with modified gel decomposition

Poster:
V. Jakeš, M. Chvalová, K. Rubešová, P. Nekvindová, M. Jelínek: Lithium niobate with improved microstructure as targets for PLD

Development of Materials Science in Research and Education 2011, 29 August – 2 September, 2011, Kežmarské Žĺaby, Slovakia.

Presentation:
K. Rubešová, T. Hlásek, V. Jakeš, D. Sedmidubský, J. Hejtmánek: Water based sol-gel methods use dat Bi-Sr-Co-O thermoelectrics synthesis

V. Jakeš, J. Erben, K. Rubešová, P. Nekvindová, M. Jelínek: Lithium niobate prepared by sol-gel methods as targets for pulsed laser deposition

32. mezinárodní český a slovenský kalorimetrický seminář, 24–28 May, 2010, Lísek u Bystřice nad Pernštejnem, Czech Republic.

Presentation:
V. Jakeš, D. Sedmidubský, O. Jankovský, Z. Sofer, J. Leitner: Termická analýza a výpočet fázového diagramu systému Ca-Co-O

Sol-Gel 2009, 23–27 August, 2009, Porto de Galinhas, Brazil.

Poster:
V. Jakeš, K. Rubešová, P. Zvonček, P. Vašek: Multi-powder proces of Bi-cuprates preparation using sol-gel prepared precursors

K. Rubešová, V. Jakeš, T. Hlásek, P. Vašek: Use of EDTA and triethanolammine as chelating agents in Bi-superconductors sol-gel preparation

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DATA

Group Profile

Research Team

Group Head

Research Team

Ph.D. students

Bc. and MSc. students

Technician

Spin coater

Technical parameters

Dip coater

Technical parameters

High-temperature furnace for solid phase synthesis

X-ray diffractometer for polycrystalline materials

X-ray fluorescence WD spectrometer

Offered topics of students theses

Ongoing Student Work

Defended students' works

Publications

2023

2022

2021

2019

2018

2017

2016

2015

2014

2013

2012

2011

2010

Selected conference contributions

E-MRS 2019 Fall Meeting, 16–19 September, 2019, Warsaw, Poland.

8th International Symposium on Optical Materials, 9–14 June, 2019, Wroclaw, Poland.

The 2018 MRS Fall Meeting and Exhibit, 25–30 November, 2018, Boston, Massachusetts, USA.

The 19th International Sol-Gel Conference, 3–8 September, 2017, Liège, Belgium.

Development of Materials Science in Research and Education 2016, 29 August – 2 September, 2016, Pavlov, Czech Republic.

Sol-Gel 2015, 6–11 September, 2015, Kyoto, Japan.

Sol-Gel 2013, 25–30 August, 2013, Madrid, Spain.

Development of Materials Science in Research and Education 2013, 9–13 September, 2013, Kežmarské Žĺaby, Slovakia.

Development of Materials Science in Research and Education 2012, 3–7 September, 2012, Lednice, Czech Republic.

E-MRS 2011 Fall Meeting, 19–23 September, 2011, Warsaw, Poland.

Development of Materials Science in Research and Education 2011, 29 August – 2 September, 2011, Kežmarské Žĺaby, Slovakia.

32. mezinárodní český a slovenský kalorimetrický seminář, 24–28 May, 2010, Lísek u Bystřice nad Pernštejnem, Czech Republic.

Sol-Gel 2009, 23–27 August, 2009, Porto de Galinhas, Brazil.

The 19^th International Sol-Gel Conference, 3–8 September, 2017, Liège, Belgium.