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Barium titanate(IV)

powder, 99.995% trace metals basis

Titanium barium oxide
Fórmula linear:
Número CAS:
Peso molecular:
Número EC:
Número MDL:
ID de substância PubChem:


99.995% trace metals basis



reaction suitability

reagent type: catalyst
core: titanium


6.08 g/mL at 25 °C (lit.)

SMILES string




InChI key


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Hee Han et al.
Advanced materials (Deerfield Beach, Fla.), 23(40), 4599-4613 (2011-09-16)
With the continued demand for ultrahigh density ferroelectric data storage applications, it is becoming increasingly important to scale the dimension of ferroelectrics down to the nanometer-scale region and to thoroughly understand the effects of miniaturization on the materials properties. Upon
Deepam Maurya et al.
Dalton transactions (Cambridge, England : 2003), 41(18), 5643-5652 (2012-03-21)
Nanostructured lead-free ferroelectric Na(0.5)Bi(0.5)TiO(3)-BaTiO(3) (NBTBT) whiskers with a high aspect ratio were synthesized topochemically using Na(2)Ti(6)O(13) (NTO) as a host structure for the first time. High energy X-ray diffraction coupled with an atomic pair distribution function (PDF) and Raman scattering
Ke Yang et al.
Macromolecular rapid communications, 33(22), 1921-1926 (2012-08-14)
A novel route to prepare core-shell structured nanocomposites with excellent dielectric performance is reported. This approach involves the grafting of polystyrene (PS) from the surface of BaTiO(3) by an in situ RAFT polymerization. The core-shell structured PS/BaTiO(3) nanocomposites not only
Laura Bocher et al.
Nano letters, 12(1), 376-382 (2011-12-24)
Artificial multiferroic tunnel junctions combining a ferroelectric tunnel barrier of BaTiO(3) with magnetic electrodes display a tunnel magnetoresistance whose intensity can be controlled by the ferroelectric polarization of the barrier. This effect, called tunnel electromagnetoresistance (TEMR), and the corollary magnetoelectric
T N Narayanan et al.
Nano letters, 12(6), 3025-3030 (2012-05-02)
The development of methods to economically synthesize single wire structured multiferroic systems with room temperature spin-charge coupling is expected to be important for building next-generation multifunctional devices with ultralow power consumption. We demonstrate the fabrication of a single nanowire multiferroic


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Energy Harvesting Using Lead Zirconium Titanate-Based Ceramic Nanowires

Among various ceramics, one-dimensional (1-D) piezoelectric ceramics have attracted significant scientific attention for use in energy harvesting.

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