Stanford Electronics is a leading manufacturer and supplier of high purity Graphite Evaporation Materials and a wide variety of evaporation materials. We offer our evaporation materials in powder and granule form. Customized forms are also available upon request.
Related products: Antimony (Sb) Evaporation Materials, Aluminum (Al) Evaporation Materials
Graphite (C) Evaporation Materials are essential for thin film deposition, offering high purity and controlled evaporation rates for precise, uniform, and defect-free film formation. Known for their exceptional thermal stability, they withstand high temperatures without degradation. Their excellent electrical conductivity and lubricity make them ideal for conductive or lubricating thin films. Widely used in semiconductor devices, optical coatings, and metallurgical processes, graphite evaporation materials drive advancements in thin film technology. Versatile and reliable, they enable consistent performance and innovation across industries requiring thin film fabrication.
Material |
Carbon |
Appearance |
Black, Non-Metallic |
Melting Point (°C) |
~3,652 |
Thermal Conductivity |
140 W/m.K |
Coefficient of Thermal Expansion |
7.1 x 10-6/K |
Theoretical Density (g/cc) |
2.25 |
Semiconductor Devices: Used to prepare conductive layers, dopant layers, and metallic connecting wires for integrated circuits, solar cells, and electronic devices.
Optical Coatings: Essential for creating optical films like lenses, mirrors, and filters to control light transmission, reflection, and absorption.
Lubricants: Utilized as a high-temperature lubricant in bearings, engine parts, and mechanical seals due to its excellent lubricating properties.
Metal Smelting: Serves as a raw material for graphite electrodes in electric furnace smelting, electrolysis, and chemical reduction processes.
Materials Research: Acts as an experimental material and reference standard for studying conductive, lubricating, and high-temperature materials.
Our evaporation materials are carefully handled to prevent damage during storage and transportation and to preserve the quality of our products in their original condition.
Material |
Carbon |
Appearance |
Black, Non-Metallic |
Melting Point (°C) |
~3,652 |
Thermal Conductivity |
140 W/m.K |
Coefficient of Thermal Expansion |
7.1 x 10-6/K |
Theoretical Density (g/cc) |
2.25 |
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