Mg3Bi2 (Magnesium Bismuth) Sputtering Target

  • High Thermoelectric Efficiency: Magnesium Bismuth is recognized for its high Seebeck coefficient and low thermal conductivity, making it an efficient material for thermoelectric applications.
  • Low-Temperature Thermoelectrics: Mg3Bi2 is particularly effective at lower temperatures, which makes it suitable for a wide range of thermoelectric devices that operate in ambient conditions.
  • Customizable Film Properties: The thin films produced using Mg3Bi2 targets can be tailored in terms of thickness and crystallinity, allowing for optimization in various applications.
  • Chemical Stability: Magnesium Bismuth films exhibit good stability, ensuring reliable performance over time in demanding environments.

Custom products or bulk orders, please contact us for competitive pricing!

  • Done Satisfaction Guaranteed
  • Done No Hassle Refunds
  • Done Secure Payments
GUARANTEED SAFE CHECKOUT
  • Visa Card
  • MasterCard
  • American Express
  • Discover Card
  • PayPal

Description

Material Magnesium Bismuth
Purity 99.9% – 99.9999% / 3N 3N5 4N 4N5 5N 5N5 6N
Shape disc, plate, sheet, rod, customized
Size can be customized (contact us)
Package vacuum bag or customer’s request
Place of Origin China
MOQ 1pcs
Supply Ability 10000pcs per month
Lead Time Qty: 1-100, Time: 3-10 days

Qty: >100, Time: to be negotiated

 

Mg3Bi2 (Magnesium Bismuth) sputtering targets are used to deposit thin films of magnesium bismuth in various advanced applications, particularly in thermoelectric devices and energy harvesting technologies. The Mg3Bi2 compound is a promising thermoelectric material due to its high efficiency in converting heat into electricity at relatively low temperatures.

Key Applications:

  • Thermoelectric Devices: Mg3Bi2 thin films are commonly used in thermoelectric generators and coolers due to their excellent thermoelectric properties, which enable efficient energy conversion.
  • Energy Harvesting: Mg3Bi2 films can be employed in energy harvesting systems to convert waste heat into electrical energy, particularly in applications like automotive, industrial, and wearable electronics.
  • Semiconductors: Magnesium Bismuth thin films are also explored for semiconductor applications in emerging fields, due to their potential for use in novel electronic devices.
  • Sensors: Mg3Bi2 films have potential use in sensor technology for detecting temperature changes, leveraging their thermoelectric sensitivity.

Features of Mg3Bi2 Sputtering Targets:

  • High Thermoelectric Efficiency: Magnesium Bismuth is recognized for its high Seebeck coefficient and low thermal conductivity, making it an efficient material for thermoelectric applications.
  • Low-Temperature Thermoelectrics: Mg3Bi2 is particularly effective at lower temperatures, which makes it suitable for a wide range of thermoelectric devices that operate in ambient conditions.
  • Customizable Film Properties: The thin films produced using Mg3Bi2 targets can be tailored in terms of thickness and crystallinity, allowing for optimization in various applications.
  • Chemical Stability: Magnesium Bismuth films exhibit good stability, ensuring reliable performance over time in demanding environments.

Customization Options:

  • Dimensions: Mg3Bi2 sputtering targets can be produced in various sizes and shapes to meet the specific requirements of different sputtering systems.
  • Purity: High-purity Mg3Bi2 targets are available, ensuring consistent film quality and performance in thermoelectric and semiconductor applications.
  • Target Bonding: Magnesium Bismuth targets can be bonded to backing plates for improved thermal conductivity and heat dissipation during the sputtering process.

Mg3Bi2 (Magnesium Bismuth) sputtering targets from Tinsan Materials offer high thermoelectric efficiency for energy harvesting, thermoelectric devices, and semiconductors. Customizable target dimensions and high-purity materials for optimal thin-film deposition.

If you have specific requirements, such as dimensions, purity, or application details, please contact us to match your needs.