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A Resonant Graphene NEMS Vibrometer

Daniel Moreno‐Garcia, Xuge Fan, Anderson D. Smith, Max C. Lemme, Vincenzo Messina, Cristina Martin‐Olmos, Frank Niklaus, Luis Guillermo Villanueva

2022Small24 citationsDOIOpen Access PDF

Abstract

Measuring vibrations is essential to ensuring building structural safety and machine stability. Predictive maintenance is a central internet of things (IoT) application within the new industrial revolution, where sustainability and performance increase over time are going to be paramount. To reduce the footprint and cost of vibration sensors while improving their performance, new sensor concepts are needed. Here, double-layer graphene membranes are utilized with a suspended silicon proof demonstrating their operation as resonant vibration sensors that show outstanding performance for a given footprint and proof mass. The unveiled sensing effect is based on resonant transduction and has important implications for experimental studies involving thin nano and micro mechanical resonators that are excited by an external shaker.

Topics & Concepts

ShakerFootprintGrapheneVibrationResonatorMaterials scienceNanoelectromechanical systemsProof of conceptMicroelectromechanical systemsNanotechnologyComputer scienceAcousticsOptoelectronicsPhysicsPaleontologyBiologyNanomedicineOperating systemNanoparticleAdvanced MEMS and NEMS TechnologiesMechanical and Optical ResonatorsAcoustic Wave Resonator Technologies
A Resonant Graphene NEMS Vibrometer | Litcius