Rhenium Evaporation Material Products

About Rhenium Evaporation Materials

Rhenium (Re) evaporation materials

Purity: 99%.

Our range of rhenium‐based materials has been developed for use by research institutions and industrial entities. The materials undergo standardised production procedures and are manufactured to meet specific performance criteria. They are intended for use in controlled thin‐film deposition processes.

Product Highlights for Rhenium (Re) Evaporation Materials:

Rhenium Evaporation Materials: Utilise rhenium in thin‐film applications. The materials are produced with precision. They provide measured thermal conductivity and electrical conductivity. They are employed in semiconductor devices, optical coatings and aerospace components given that exact performance data is required.

Applications for Rhenium (Re) Evaporation Materials:

The materials are used in various industries and research areas:

Semiconductor Industry: The high melting point and stable physical properties allow the use of rhenium in semiconductor applications, including gate contacts and interconnection elements.

Optics and Photonics: The reflective properties and thermal stability are applied in mirrors, lenses and coatings for high-energy laser systems.

Aerospace and Defence: Rhenium withstands high temperatures and harsh environments. It is used for components in aerospace systems, turbine blades and rocket nozzles.

Research and Development: Rhenium is utilised in materials research, where its measurable properties support scientific evaluations and standardised experiments.

Key Features of Rhenium (Re) Evaporation Materials:

Precision Manufacturing: Each evaporation material is produced under standard control processes to ensure even deposition.

High Purity: The materials have a verified purity exceeding 99% as confirmed by routine tests.

High Melting Point: Rhenium exhibits a melting point of approximately 3 186 °C, which renders it suitable for high-temperature applications.

Thermal and Electrical Properties: The material provides thermal and electrical conductivity values that adhere to defined specifications.

Quality Assurance: The production process complies with recognised quality guidelines. Routine tests verify that performance parameters are met.

Enhance Your Thin-Film Applications:

The production process has been established to meet precise manufacturing and operational standards. Engineers and researchers at institutions such as Stanford Advanced Materials utilise these materials in controlled experiments. The materials form the basis for advances in thin-film processes, as verified by measured improvements.

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