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Lithium Manganese Oxide Sputtering Targets

Lithium Manganese Oxide Sputtering Targets

Lithium Manganese Oxide Sputtering Targets
Product No NRE-43483
CAS No. 12057-17-9
Formula LiMn2O4
Molecular Weight 180.81
Purity >99.9%
Density NA
Thickness 3 mm ± 0.5mm (can be customized)
Diameter 50 mm ± 1mm (can be customized)
Shape Round
Resistivity NA
Thermal Conductivity NA

Lithium Manganese Oxide Sputtering Targets

Introduction

Lithium Manganese Oxide (LiMnO₂) is a prominent material in the realm of lithium-ion battery technology, particularly known for its use as a cathode material. It exhibits several advantageous properties, such as high specific capacity, good thermal stability, and cost-effectiveness. LiMnO₂ is recognized for its potential to enhance battery safety and efficiency, making it suitable for various energy storage applications.

Sputtering Targets made from lithium manganese oxide are employed in thin film deposition processes to create high-performance cathode layers in lithium-ion batteries and other electronic devices.

Applications

Lithium-Ion Batteries:

Cathode Material: LiMnO₂ is extensively used as a cathode in lithium-ion batteries, providing high energy density and enhanced cycle stability. Its electrochemical properties make it suitable for applications in electric vehicles and portable electronics.

Thin Film Batteries:

Sputtered films of lithium manganese oxide can be used in the production of thin film batteries, which are essential for compact and flexible electronic devices, such as wearables and IoT applications.

Supercapacitors:

The fast charge/discharge capabilities of LiMnO₂ make it a suitable candidate for supercapacitor applications, where high power density is required.

Electrochemical Sensors:

LiMnO₂’s electrochemical activity makes it beneficial for use in sensors designed to detect lithium ions and other substances, leveraging its conductivity and reactivity.

Protective Coatings:

Sputtered lithium manganese oxide films can serve as protective coatings for electronic components, enhancing durability and resistance to degradation.

 

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