Hydrothermal Synthesis of BaTiO₃ Nanopowders Using TiO₂ Nanoparticles

Abstract: Anatase TiO 2 nanoparticles, obtained by hydrolyzing titanium isopropoxide in distilled water, were used to synthesize BaTiO 3 (BT) nanopowder by the hydrothermal method. When titanium isopropoxide was used, BT nanopowder with a low tetragonality of 1.0070 was formed because of the presence of OHions in the oxygen sites and Ba vacancies. However, by changing the titanium source from titanium isopropoxide to TiO 2 nanoparticles, a homogeneous BT nanopowder with similar particle size and a high tetragonality of … Show more

“…It has been reported that the BaTiO 3 with a large tetragonality is crucial in achieving the multilayer capacitor with a large capacitance, 27 and the tetragonality ( c / a ) can be used to indicate the degree of tetragonal-cubic distortion. 28 Fig.…”

Solvothermal synthesis of nanoscale BaTiO₃ in benzyl alcohol–water mixtures and effects of manganese oxide coating to enhance the PTCR effect

“…It has been reported that the BaTiO 3 with a large tetragonality is crucial in achieving the multilayer capacitor with a large capacitance, 27 and the tetragonality ( c / a ) can be used to indicate the degree of tetragonal-cubic distortion. 28 Fig.…”

Solvothermal synthesis of nanoscale BaTiO₃ in benzyl alcohol–water mixtures and effects of manganese oxide coating to enhance the PTCR effect

“…[ 18 ] To increase the activity and reactivity of BaTiO 3 materials, preparation of materials in nanocrystalline forms is intensively sought. Nanoparticles of BaTiO 3 have been synthesized by numerous synthetic procedures such as hydrothermal synthesis, [ 19 ] microwave hydrothermal treatment, [ 20 ] sol‐gel method, [ 21 ] and molten salt synthesis. [ 22 ]…”

“…[18] To increase the activity and reactivity of BaTiO 3 materials, preparation of materials in nanocrystalline forms is intensively sought. Nanoparticles of BaTiO 3 have been synthesized by numerous synthetic procedures such as hydrothermal synthesis, [19] microwave hydrothermal treatment, [20] sol-gel method, [21] and molten salt synthesis. [22] Despite the high versatility of the conventional advanced synthetic techniques, their application in the synthesis of titanates often results in products contaminated with unreacted starting materials [23] and/or carbonates [24] and also do not allow simultaneous control of material's characteristics.…”

Photo‐electrochemical activity and selectivity of nanocrystalline BaTiO₃ electrodes in water oxidation

“…Dong et al reported the successful synthesis of av ariety of BaTiO 3 nanocrystals using TiCl 4, [23] while Paik et al employed both titanium isopropoxide and TiO 2 crystalline particles( am ixture of anatase and brookite) to produce BaTiO 3 powders. [24] Av ariety of BaTiO 3 powders, including tubes, wires, and cube-like particles, have all been re-ported through the use of either crystalline TiO 2 or titanium alkoxide as ap recursor. [22,[25][26][27] Though there are varying and sometimes conflicting reports on the mechanistice ffect of Ti precursor on the final shape of BaTiO 3 products, [28,39] both the Caruntu and Poeppelmeier groups have reportedt he use of solvothermals yntheses to produce BaTiO 3 nanocubes through the addition of oleic acid, ak nown {100} capping agent,t o their reactions.…”

“…reported the successful synthesis of a variety of BaTiO 3 nanocrystals using TiCl 4, while Paik et al. employed both titanium isopropoxide and TiO 2 crystalline particles (a mixture of anatase and brookite) to produce BaTiO 3 powders . A variety of BaTiO 3 powders, including tubes, wires, and cube‐like particles, have all been reported through the use of either crystalline TiO 2 or titanium alkoxide as a precursor .…”

Facile Synthesis of BaTiO₃ Nanocubes with the Use of Anatase TiO₂ Nanorods as a Precursor to Titanium Hydroxide