Your search keyword '"Jandová, Věra"' showing total 4 results

1. A novel route of colloidal chemistry: room temperature reactive interactions between titanium monoxide and silicon monoxide sols produced by laser ablation in liquid resulting in the formation of titanium disilicide.

Author

Křenek, Tomáš, Vála, Lukáš, Medlín, Rostislav, Pola, Josef, Jandová, Věra, Vavruňková, Veronika, Mikysek, Petr, Bělský, Petr, and Koštejn, Martin

Subjects

TITANIUM powder, LASER ablation, HIGH resolution electron microscopy, SMALL-angle scattering, COLLOIDAL crystals, SOLVENTS, TITANIUM, COLLOIDS

Abstract

In spite of advanced research on functional colloidal inorganic nanoparticles and their reactivity, room temperature reactive interactions between two different colloids have remained challenging so far. Laser ablation of titanium monoxide and silicon monoxide in ethanol and water allows the generation of TiO-derived and SiO-derived colloidal nanoparticles which were characterized for their stability, size distribution and zeta potentials with dynamic light scattering and after evaporation of solvent examined for their morphology, chemical and phase composition by scanning electron microscopy, Raman spectroscopy, high resolution transmission electron microscopy and electron diffraction and small angle X-ray scattering. Aqueous and ethanolic TiO-derived colloids consist of anatase and monoclinic TiO, while ethanolic SiO-derived colloids are composed of crystalline and amorphous Si, nanocrystalline Si and SiO2 and aqueous SiO-derived colloids contain, in addition to these phases, a high pressure form of cristobalite. Simple room temperature mixing of ethanolic TiO- and SiO-derived colloids allows the formation of TiSi2, which is a case of so far unreported room temperature reactive interactions between two colloidal species. All colloids absorb solar light and act as photocatalysts for methylene blue degradation. These findings present a challenge for further search for feasible room-temperature reactions between distinct colloidal particles and open the potential for green synthesis of other desirable and hardly achievable phases. [ABSTRACT FROM AUTHOR]

Published

2022

2. Laser-Induced Approach to Nanoscopic Titanium Oxycarbides

Author

Jandová, Věra, Fajgar, Radek, and Koštejn, Martin

Subjects

titanium, laser ablation, reactors

Published

2014

3. Oxidation and carbidation of laser-ablated amorphized Ti particles in carbon monoxide

Author

Jandová, Věra, Kupčík, Jaroslav, Bastl, Zdeněk, Šubrt, Jan, and Pola, Josef

Subjects

*TITANIUM, *OXIDATION, *LASER ablation, *CARBON monoxide, *AMORPHIZATION, *THIN films, *ELECTRON diffraction, *CHEMICAL decomposition

Abstract

Abstract: IR laser ablation of hexagonal titanium in vacuum leads to amorphization of ablated Ti particles and when carried out in gaseous carbon monoxide it proceeds as reactive ablation involving particles amorphization, oxidation and carbidation. The films deposited in vacuum and in the presence of CO were examined by Fourier transform infrared, Raman and X-ray photoelectron spectroscopy, X-ray and electron diffraction and electron microscopy. The Ti films become oxidized upon contact with air and the Ti/C/O films are composed of Ti–O, Ti–C and C–O bonds-containing structures with Ti in Ti2+–Ti4+ state and incorporating crystalline rutile and elemental carbon. The ablation in vacuum represents a new approach to amorphous titanium and it is judged that hot ablated Ti particles are modified by reactions with CO decomposition products into amorphous Ti oxycarbides which undergo rapid post-pulse amorphization. [Copyright &y& Elsevier]

Published

2013

4. Sol-gel derived silicate-phosphate glass SiO2–P2O5–CaO–TiO2: The effect of titanium isopropoxide on porosity and thermomechanical stability.

Author

Kovářík, Tomáš, Bělský, Petr, Křenek, Tomáš, Deshmukh, Kalim, Forejtová, Jana, Medlín, Rostislav, Beneš, Jan, Svoboda, Miloš, Kadlec, Jaroslav, Pola, Michal, Jandová, Věra, Mikysek, Petr, Ilavský, Jan, Stich, Theresia, Docheva, Denitsa, Strejcová, Kateřina, and Tišler, Zdeněk

Subjects

*POROSITY, *TITANIUM dioxide, *CALCIUM phosphate, *TITANIUM, *BIOACTIVE glasses, *NITROGEN analysis, *MICROPOROSITY, *PHOSPHATE glass, *PHOSPHATE coating

Abstract

Despite of several decades lasting extensive research of bioactive and bioresorbable glasses the systematic parametrization and determination of the key factors affecting porosity and thermomechanical characteristics still remains challenging. Here, we present silica-phosphate glasses, with the composition 70SiO 2 –20P 2 O 5 –(10- x)CaO– x TiO 2 (mol%; x = 0, 2.5, 5, and 7.5), prepared by sol-gel method and reinforced by titanium dioxide via titanium isopropoxide (TTIP) incorporation which demonstrated tunable variation of porosity from micro-to macro-region and superb mechanical integrity during the calcination process. The presence of 7.5 mol% TiO 2 promotes dimensional stability up to 1000 °C as investigated by thermomechanical analysis. The XRD showed the dominant presence of silicon phosphate [Si(P 2 O 7)], titanium phosphate [Ti(P 2 O 7)] and calcium phosphates [β-Ca(P 2 O 6) and γ- Ca 2 (P 2 O 7)]. The effect of TiO 2 doping on the multiscale morphology and porosity was investigated by means of SEM, MIP, μCT, N 2 adsorption and USAXS/SAXS. Increasing TiO 2 content leads to the formation of open porosity up to 70 vol% and drives the formation of a refined interconnected macroporosity of 2–30 μm. In contrast, mesoporosity with a dominance of 3–6 nm pores decreases in all samples with increasing TiO 2 content. USAXS/SAXS revealed an increase in primary particle size with increasing TiO 2 content which is in good agreement with the nitrogen physisorption analysis showing that microporosity decreases with increasing TiO2 content. [Display omitted] • The reinforcement of silica-phosphate glass with titanium dioxide via titanium isopropoxide. • The increasing TiO 2 content led to the formation of open porosity 70 vol%. • The presence of TiO 2 drives a formation of a fully interconnected framework at a macroscale. • Micro-/mesoporosity decreases with increasing TiO 2 content. • USAXS/SAXS profiles indicated the hierarchical morphology of sol-gel glasses. [ABSTRACT FROM AUTHOR]

Published

2024