Diamond Sensor Technologies: From Multi Stimulus to Quantum
Pak San Yip, Tiqing Zhao, Kefan Guo, Wenjun Liang, Ruihan Xu, Yi Zhang, Yang Lu

TL;DR
This paper reviews diamond-based sensors, highlighting their unique properties and applications in mechanical, thermal, magnetic, and quantum sensing.
Contribution
The paper provides a comprehensive overview of recent advancements and challenges in diamond sensor technologies for diverse and extreme applications.
Findings
Diamond resonators operate at high frequencies with excellent quality factors due to CVD growth and etching techniques.
Boron-doped diamond and NV centers enable high-performance thermal and magnetic sensing.
Persistent challenges like grain boundary losses and surface stability are being addressed through surface chemistry and scalable CVD methods.
Abstract
This review explores the variety of diamond-based sensing applications, emphasizing their material properties, such as high Young’s modulus, thermal conductivity, wide bandgap, chemical stability, and radiation hardness. These diamond properties give excellent performance in mechanical, pressure, thermal, magnetic, optoelectronic, radiation, biosensing, quantum, and other applications. In vibration sensing, nano/poly/single-crystal diamond resonators operate from MHz to GHz frequencies, with high quality factor via CVD growth, diamond-on-insulator techniques, and ICP etching. Pressure sensing uses boron-doped piezoresistive, as well as capacitive and Fabry–Pérot readouts. Thermal sensing merges NV nanothermometry, single-crystal resonant thermometers, and resistive/diode sensors. Magnetic detection offers FeGa/Ti/diamond heterostructures, complementing NV. Optoelectronic applications…
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Taxonomy
TopicsDiamond and Carbon-based Materials Research · Magnetic Field Sensors Techniques · Graphene research and applications
