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Frequency Selectivity via Inner Boundary Conditions for A Self‐Powered Multiresonant Acoustic Sensing Array with Broad Bandwidth

Soyeon Lee, Wheejae Kim, No‐Cheol Park, Jin‐Woo Park

2023Advanced Functional Materials12 citationsDOI

Abstract

Abstract This study investigates and proposes innovative approaches to achieve frequency selectivity within a limited space. Traditional multiresonant acoustic devices use individual sensing elements of varying sizes to achieve resonance frequency ( f r ), leading to an inability to sense focused acoustic waves, unlike the human ear. A miniaturized, self‐powered artificial basilar membrane that incorporates multiresonant features is introduced. Multiple f r of the diaphragms are developed using inner boundary conditions (iBCs) defined by an adjustable micropatterned elastomeric support (µ‐support) and a porous nanofiber (NF) mat. This new approach offers the advantage of all‐in‐one fabrication, eliminating the need for device area variation or an additional rigid frame typically required in conventional multiresonant acoustic devices. The efficacy of the iBCs in shifting f r within the vocal frequency ranges is verified via a laser Doppler vibrometer, simulation, and triboelectric output. With its self‐powering capabilities based on triboelectric principles, this artificial basilar membrane holds promise for accurately recognizing musical and vocal signals with specific frequency characteristics. With four different iBCs in a total device area of 23 × 23 mm 2 , a tunable four‐channel system with f r ranging from 400 to 3000 Hz is achieved. This advancement enables the sensing of focused acoustic waves, simulating the functionality of an artificial human ear model.

Topics & Concepts

Materials scienceAcousticsBandwidth (computing)Audio frequencyBasilar membraneComputer scienceSound pressurePhysicsTelecommunicationsMedicineCochleaAnatomyAdvanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsInnovative Energy Harvesting Technologies