Di Fu scite author profile

We demonstrate an interesting phenomenon that graphene can emit sound. The application of graphene can be expanded in the acoustic field. Graphene-on-paper sound source devices are made by patterning graphene on paper substrates. Three graphene sheet samples with the thickness of 100, 60, and 20 nm were fabricated. Sound emission from graphene is measured as a function of power, distance, angle, and frequency in the far-field. The theoretical model of air/graphene/paper/PCB board multilayer structure is established to analyze the sound directivity, frequency response, and efficiency. Measured sound pressure level (SPL) and efficiency are in good agreement with theoretical results. It is found that graphene has a significant flat frequency response in the wide ultrasound range 20-50 kHz. In addition, the thinner graphene sheets can produce higher SPL due to its lower heat capacity per unit area (HCPUA). The infrared thermal images reveal that a thermoacoustic effect is the working principle. We find that the sound performance mainly depends on the HCPUA of the conductor and the thermal properties of the substrate. The paper-based graphene sound source devices have highly reliable, flexible, no mechanical vibration, simple structure and high performance characteristics. It could open wide applications in multimedia, consumer electronics, biological, medical, and many other areas.

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Unipolar Resistive Switching Properties of Diamondlike Carbon-Based RRAM Devices

Xie

Feng

et al. 2011

IEEE Electron Device Lett.

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Scaling-down characteristics of nanoscale diamond-like carbon based resistive switching memories

Xie

Feng

et al. 2014

Carbon

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Di Fu

Graphene-on-Paper Sound Source Devices

Unipolar Resistive Switching Properties of Diamondlike Carbon-Based RRAM Devices

Scaling-down characteristics of nanoscale diamond-like carbon based resistive switching memories

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