Diamond Thermal Management
Thermal Capabilities
Section titled āThermal CapabilitiesāDiamond has the highest known thermal conductivity of any bulk material (~2200 W/mK for SCD, >1000 W/mK for PCD). It is critical for āHot Spotā management in GaN-on-Diamond RF devices, laser diodes, and high-performance computing.
Heat Spreaders
Section titled āHeat SpreadersāWe 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 āLatest Research Papersā-
AllāOptical Temperature Sensor Based on NitrogenāVacancy Centers for Dissolution
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Hyperfine Coupling Constants of Photoinduced Axial Symmetry NV Centers in a 6H Silicon Carbide - DFT and High-Field ENDOR Spectroscopy Study
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Operando Imaging Techniques for Quantum Dynamics of Angular-Momentum
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Enhanced Lateral Growth of Homoepitaxial (001) Diamond by Microwave Plasma Chemical Vapor Deposition with Nitrogen Addition
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Regulate the Thermal Energy Transport at the Graphene/Diamond Heterostructure Interface through Atomic Engineering - A Molecular Dynamics Study
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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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Inspired Fluorinated BDD Film for Multifunctional Protection of Downhole Sensor Electrodes
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Synthesis and Characterization of Ti 4+ Containing Carbonates Ti[CO 4 ] and Ti 2 O 3 [CO 3 ]
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Interactions of NitrogenāVacancy Centers in Diamond with Electron Beams - Implications for Quantum Sensing and Photoluminescence Stability