Research progress of electromechanical graphene resonant sensors

Abstract: The resonant sensor is a kind of high-sensitivity and high-stability sensor that directly outputs digital signals. The resonance sensitive elements of traditional resonant sensors are mostly made of metal, quartz crystal, silicon and other materials. However, with the development of resonant sensor toward the miniaturization and Intellectualization, the sensitive materials of new resonator are characterized by being micro-nano machined and highly sensitive. As a new type of two-dimensional nanomaterial, graphe… Show more

“…Then, the film produces temperature and strain fields that change periodically at the same frequency. Under the action of these two fields, the film expands and contracts at the same frequency, resulting in periodic vibrations of the same frequency. − It is worth noting that there is a time delay in the delivery of optical power to the film due to the diffusion of heat through the film. Specifically, the photoexcited carriers of the MXene film transfer energy to phonons on a time scale of a few picoseconds, producing the instantaneous heating power (Figure g). , The MXene film is photothermally actuated to deflect with increasing temperature of the film, resulting in a resonance phenomenon (Figure h).…”

Probing Thermal Transport on a Suspended Ti₃C₂T_x MXene Film via a Photothermally Actuated Resonator

“…Then, the film produces temperature and strain fields that change periodically at the same frequency. Under the action of these two fields, the film expands and contracts at the same frequency, resulting in periodic vibrations of the same frequency. − It is worth noting that there is a time delay in the delivery of optical power to the film due to the diffusion of heat through the film. Specifically, the photoexcited carriers of the MXene film transfer energy to phonons on a time scale of a few picoseconds, producing the instantaneous heating power (Figure g). , The MXene film is photothermally actuated to deflect with increasing temperature of the film, resulting in a resonance phenomenon (Figure h).…”

Probing Thermal Transport on a Suspended Ti₃C₂T_x MXene Film via a Photothermally Actuated Resonator