SATURN Journal Article

Overview

abstract

• We demonstrate the design, fabrication, evaluation, and use of a self-powered microphone that is thin, flexible, and easily manufactured. Our technology is referred to as a Self-powered Audio Triboelectric Ultra-thin Rollable Nanogenerator (SATURN) microphone. This acoustic sensor takes advantage of the triboelectric nanogenerator (TENG) to transform vibrations into an electric signal without applying an external power source. The sound quality of the SATURN mic, in terms of acoustic sensitivity, frequency response, and directivity, is affected by a set of design parameters that we explore based on both theoretical simulation and empirical evaluation. The major advantage of this audio material sensor is that it can be manufactured simply and deployed easily to convert every-day objects and physical surfaces into microphones which can sense audio. We explore the space of potential applications for such a material as part of a self-sustainable interactive system.

CU Boulder Authors

• Gupta, Mohit

publication date

• July 5, 2018

Date in CU Experts

• January 6, 2021 12:23 PM

Full Author List

• Arora N; Zhang SL; Shahmiri F; Osorio D; Wang Y-C; Gupta M; Wang Z; Starner T; Wang ZL; Abowd GD

author count

• 10

published in

• Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies  Journal

Other Profiles

Electronic International Standard Serial Number (EISSN)

• 2474-9567

Digital Object Identifier (DOI)

• https://doi.org/10.1145/3214263

Additional Document Info

start page

• 1

end page

• 28

volume

• 2

issue

• 2