Polymer-bonded magnetic compounds


This material is formed by compounding magnetic and thermoplastic materials. The material is suitable for complex shapes, bi-injection molding, overmolding etc.

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Metallic soft
magnetic materials

MATE’s metallic soft magnetic materials offer superior magnetic properties. Available as metallic flat powder or metal-based materials for injection and extrusion molding, these materials ensure precise control of permeability and magnetic behavior to meet specific needs.

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Thermal conducting compounds


MATEs thermal conducting compounds for injection molding are engineered for applications requiring both high thermal conductivity and electrical insulation. These materials provide superior heat dissipation and are suitable for use in various electronic and automotive systems.

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High-density compounds


Environmentally friendly injection molding compounds from high-density materials for lead-free injection molding.

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Hard magnetic ferrite powder


We offer a wide range of ferrite powders for customers who prefer to manufacture their compounds themselves.

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LiNbO3 cathode coating


A water-based LiNbO3 coating for cathode materials in sulfide-based all-solid-state batteries. This coating reduces resistivity, improves battery longevity, and enhances performance, making it ideal for batteries in automotive and other large-scale battery-requiring applications.

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LLZ solid electrolyte


A garnet-type solid electrolyte (LLZ) with high ionic conductivity for oxide-based (semi-)solid-state batteries. It enhances battery safety and longevity through thermodynamic stability, suitable for next-generation energy storage.

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LAGP solid electrolyte


A LAGP solid electrolyte for oxide-based semi-solid-state batteries, offering high lithium conductivity. It is cost-effective, allowing safe handling in normal atmospheric conditions without special equipment.

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Other functional materials


Materials developed for new fields of application with sophisticated functions by compounding various fillers and functional plastics.

For more information, visit the Mate Web site >