Biosensors & Quantum Sensing
Technology Overview
Section titled âTechnology OverviewâDue to its biocompatibility and unique optical properties (specifically Nitrogen-Vacancy centers), diamond is revolutionizing the sensing industry. This section covers research on quantum magnetometry, neural sensing, and fluorescent nanodiamond biomarkers.
Recommended Materials
Section titled âRecommended MaterialsâFor quantum applications, impurity levels must be strictly controlled to maintain spin coherence. For electrochemical biosensing, boron doping is required.
Recommended
High Concentration Quantum Grade Single Crystal Diamond
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Recommended
Boron Doped Single Crystal Diamond Plate
View Specs →Latest Research Papers
Section titled âLatest Research Papersâ-
Chromaticity Study of Yellow HTHP Lab-Grown Diamonds Based on Spectroscopy
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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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Enhanced Lateral Growth of Homoepitaxial (001) Diamond by Microwave Plasma Chemical Vapor Deposition with Nitrogen Addition
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Triple-Tone Microwave Control for Sensitivity Optimization in Compact Ensemble Nitrogen-Vacancy Magnetometers
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Triple-Tone Microwave Control for Sensitivity Optimization in Compact Ensemble Nitrogen-Vacancy Magnetometers
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Anomaly Detection for Semiconductor Wafer Multi-wire Sawing Machines Using Statistical and Deep Learning Methods
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Interactions of NitrogenâVacancy Centers in Diamond with Electron Beams - Implications for Quantum Sensing and Photoluminescence Stability
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LinkerâFree Covalent DNA Functionalization of QuantumâGrade Nanodiamonds
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Band offset between cubic boron nitride and nitrogen-plasma terminated boron-doped diamond (111)
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Quantum Biosensors on Chip - A Review from Electronic and Photonic Integrated Circuits to Future Integrated Quantum Photonic Circuits