Sodium Bismuth Titanate (Na₂NaBi₄TiO₁₃)

element：Na (Sodium), Bi (Bismuth), Ti (Titanium), O (Oxygen)
purity：High purity
shape：Customizable
specification：Customizable based on customer requirements
packaging：Custom packaging options available based on customer needs

Sodium bismuth titanate (Na₂NaBi₄TiO₁₃) exhibits excellent piezoelectric properties, optimized dielectric behavior, and superior thermal stability. Designed for electronic applications, it ensures high-efficiency energy conversion, extended durability, and reliable performance in advanced systems.

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产品描述

Product Overview

Sodium Bismuth Titanate (Na₂NaBi₄TiO₁₃) is a composite oxide material with a perovskite structure, primarily used in the electronic ceramics field, especially for ferroelectric and dielectric applications. The material combines the excellent properties of sodium, bismuth, and titanium, offering significant dielectric and ferroelectric properties. It also possesses good thermal stability and environmental adaptability. Sodium Bismuth Titanate performs excellently under high-temperature and high-electric field conditions, making it ideal for high-performance electronic products and devices.

Features

Excellent Dielectric Properties: Sodium Bismuth Titanate has a high dielectric constant, making it suitable for efficient energy storage and transmission.
Notable Ferroelectric Properties: The material exhibits good ferroelectricity, making it ideal for use in sensors, memory devices, and other ferroelectric components.
Good High-Temperature Stability: The material remains stable in high-temperature environments, making it suitable for high-temperature electronic devices.
High Chemical Stability: Sodium Bismuth Titanate shows strong chemical stability under a variety of environmental conditions.
Strong Environmental Adaptability: It performs well in different working conditions such as high voltage, high frequency, and high temperature.

Applications

Capacitors: Widely used in high-performance capacitors, especially for high-frequency applications that require a high dielectric constant and low loss.
Ferroelectric Materials: Used to manufacture ferroelectric memory devices, sensors, actuators, and other ferroelectric components.
High-Temperature Electronic Devices: Serves as a material for high-temperature electronic components and devices, suitable for high-temperature applications.
Microwave Technology: Used as a dielectric material in microwave devices for signal transmission and modulation.
New Energy Technologies: Serves as an important dielectric material in energy storage and conversion systems.