ST0936 망간(II) 셀레나이드 스퍼터링 타겟, MnSe

Manganese (II) Selenide Sputtering Target Description

The Manganese (II) Selenide Sputtering Target, MnSe is a premium material formulated specifically for sputtering applications. Manufactured under strict quality controls, it ensures stable and uniform thin film deposition critical for semiconductor, photovoltaic, and optoelectronic industries. Its robust thermal stability and refined physical properties provide consistent performance in high-precision sputtering processes.

Manganese (II) Selenide Sputtering Target Applications

· Thin Film Deposition: Ideal for creating uniform layers in semiconductor and optoelectronic devices.
· Photovoltaic Manufacturing: Supports the deposition of efficient absorber layers in solar cells.
· Advanced Electronic Components: Used in sensors and other precision electronic devices.
· Research & Development: Provides material consistency for experimental thin film applications. 

Manganese (II) Selenide Sputtering Target Packing

Our Manganese (II) Selenide Sputtering Targets are meticulously packaged to preserve product integrity. They are vacuum-sealed and available in custom packaging options to ensure their stability and performance remain uncompromised during storage and transportation.

Frequently Asked Questions

Q: What are the primary applications of the MnSe sputtering target?
A: It is primarily used for the deposition of high-quality thin films in semiconductor devices, photovoltaic cells, and optoelectronic applications.

Q: How does a purity level of ≥99% benefit the sputtering process?
A: A high purity level minimizes impurities in the deposited films, ensuring uniformity and high performance in critical applications.

Q: Can the sputtering target be customized in shape and size?
A: Yes, the target is available in standard disc shapes or can be custom-made to meet specific application requirements.

Q: What precautions should be taken during storage and handling?
A: The targets should be stored in a clean, dry environment and handled with care to avoid contamination and mechanical damage.

Q: What is the role of the Indium bond in this sputtering target?
A: The Indium bond ensures secure attachment and reliable thermal conduction during the sputtering process, contributing to the overall performance stability.