Diamond MEMS & Acoustic Devices
Technology Overview
Section titled “Technology Overview”Diamond possesses the highest Young’s modulus (~1200 GPa) and highest acoustic velocity of any material. This makes it the ultimate substrate for high-frequency SAW/BAW filters (5G/6G applications) and high-Q resonators.
Membranes & Windows
Section titled “Membranes & Windows”We provide freestanding polycrystalline diamond membranes with varying thickness and surface finishes tailored for lithography and micromachining.
Recommended
Free Standing Polycrystalline Cvd Diamond Membrane
View Specs → Recommended
Ultraflat Diamond Membrane
View Specs →Latest Research Papers
Section titled “Latest Research Papers”-
Anomaly Detection for Semiconductor Wafer Multi-wire Sawing Machines Using Statistical and Deep Learning Methods
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Chipping size in Si and SiC wafers dicing with a diamond saw blade – A review
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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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Influence of wire bowing during diamond wire sawing on the surface roughness of crystal wafers
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Crossover from propagon to diffuson thermal transport in SnTe due to nanodiamond inclusions leads to ultra-low lattice thermal conductivity
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Quantum Biosensors on Chip - A Review from Electronic and Photonic Integrated Circuits to Future Integrated Quantum Photonic Circuits
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Application of a microwave acoustoelectronic sensor on a diamond substrate to determine the properties of solutions of substances
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Microwave single-photon detection using a hybrid spin-optomechanical quantum interface
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Optical properties of single-crystal diamond MEMS - mitigating substrate interference