Diamond Thermal Management
Thermal Capabilities
Section titled “Thermal Capabilities”Diamond has the highest known thermal conductivity of any bulk material (~2200 W/mK for SCD, >1000 W/mK for PCD). It is critical for “Hot Spot” management in GaN-on-Diamond RF devices, laser diodes, and high-performance computing.
Heat Spreaders
Section titled “Heat Spreaders”We offer both metalized heat sinks for immediate bonding and raw diamond heat spreaders.
Recommended
Diamond Heat Sink
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Recommended
Diamond Heat Spreader With Copper Coated Metalized Surface
View Specs →Latest Research Papers
Section titled “Latest Research Papers”-
Chromaticity Study of Yellow HTHP Lab-Grown Diamonds Based on Spectroscopy
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Enhanced Lateral Growth of Homoepitaxial (001) Diamond by Microwave Plasma Chemical Vapor Deposition with Nitrogen Addition
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Origin of surface-induced visible light absorption of nanostructured diamond
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A Broad Photon Energy Range Multi-Strip Imaging Array Based upon Single Crystal Diamond Schottky Photodiode
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Anomaly Detection for Semiconductor Wafer Multi-wire Sawing Machines Using Statistical and Deep Learning Methods
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Kinetic Insights and Process Selection for Electrochemical Remediation of Industrial Dye Effluents Using Mixed Electrode Systems
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Experimental Study on the Role of Bond Elasticity and Wafer Toughness in Back Grinding of Single-Crystal Wafers
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213.4 W Continuous-Wave Diamond Raman Laser at 1240 nm with Polarization-Combined Pumping
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High-resolution ptychographic nanoimaging under high pressure with X-ray beam scanning
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Heterogeneous electro-Fenton treatment of clofibric acid with an Fe₃O₄-loaded bifunctional carbon felt cathode via different anode types