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Graphene Resonant Pressure Sensor with Ultrahigh Responsivity
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Graphene Resonant Pressure Sensor with Ultrahigh Responsivity
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Graphene has good mechanical properties including large Young's modulus, making it ideal for many resonant sensing applications. Nonetheless, the development of graphene based sensors has been limited due to difficulties in fabrication, encapsulation, and packaging. Here we report a graphene nanoresonator based resonant pressure sensor. The graphene nano resonator is fabricated on a thin silicon diaphragm that deforms due to pressure differential across it. The deformation-induced strain change results in a resonance frequency shift of the graphene nano resonator. The pressure sensing experiments demonstrate a record high responsivity of 20Hz/Pa with a resolution of 90Pa. The resolution of the sensing scheme is 0.003% of the full-scale range of the pressure sensor. This exceptional performance is attributed to two factors: maintaining a high-quality vacuum environment for the nanoresonator and introducing stimuli through a thin silicon diaphragm. The proposed pressure sensor design provides flexibility to adjust responsivity and range as needed. The fabrication method is simple and has the potential to be integrated with standard CMOS fabrication. The innovative substrate packaging allows the coupling of the resonator's strain with pressure.
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