Low-voltage wearable tactile display with thermo-pneumatic actuation

A. Mazzotta; S. Taccola; I. Cesini; M. Sanchez Sifuentes; R. A. Harris; V. Mattoli

doi:10.1038/s41528-025-00426-3

Low-voltage wearable tactile display with thermo-pneumatic actuation

A. Mazzotta
, S. Taccola
, I. Cesini
, M. Sanchez Sifuentes
, R. A. Harris
, V. Mattoli

Istituto Italiano di Tecnologia
Sant'Anna School of Advanced Studies
University of Leeds
Manchester Metropolitan University

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Tactile displays often face challenges like high power consumption, bulky control systems, and limited portability, hindering their application in wearable technologies. This work presents a novel thermo-pneumatic tactile display that operates via localized heating of a small air volume, enabling low-voltage operation with standard batteries. Its fully portable design integrates control electronics into a wearable bracelet with Bluetooth activation, enhancing practicality. Mechanical tests demonstrated the device’s ability to generate forces exceeding 30 mN and displacements of tens of microns using pulsed signals with modulable durations and frequencies. User tests with voluntary participants confirmed its effectiveness as a tactile display, achieving 83% accuracy in recognizing Braille patterns. By addressing key limitations of traditional systems, this approach offers a promising solution for compact, low-power wearable tactile interfaces.

Original language	English
Article number	70
Journal	npj Flexible Electronics
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41528-025-00426-3
State	Published - Dec 2025
Externally published	Yes

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10.1038/s41528-025-00426-3

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title = "Low-voltage wearable tactile display with thermo-pneumatic actuation",

abstract = "Tactile displays often face challenges like high power consumption, bulky control systems, and limited portability, hindering their application in wearable technologies. This work presents a novel thermo-pneumatic tactile display that operates via localized heating of a small air volume, enabling low-voltage operation with standard batteries. Its fully portable design integrates control electronics into a wearable bracelet with Bluetooth activation, enhancing practicality. Mechanical tests demonstrated the device{\textquoteright}s ability to generate forces exceeding 30 mN and displacements of tens of microns using pulsed signals with modulable durations and frequencies. User tests with voluntary participants confirmed its effectiveness as a tactile display, achieving 83\% accuracy in recognizing Braille patterns. By addressing key limitations of traditional systems, this approach offers a promising solution for compact, low-power wearable tactile interfaces.",

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doi = "10.1038/s41528-025-00426-3",

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AU - Taccola, S.

AU - Cesini, I.

AU - Sanchez Sifuentes, M.

AU - Harris, R. A.

AU - Mattoli, V.

N1 - Publisher Copyright: © Fondazione Istituto Italiano di Tecnologia, and Silvia Taccola, Midori Sanchez Sifuentes, Russell A. Harris 2025.

PY - 2025/12

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N2 - Tactile displays often face challenges like high power consumption, bulky control systems, and limited portability, hindering their application in wearable technologies. This work presents a novel thermo-pneumatic tactile display that operates via localized heating of a small air volume, enabling low-voltage operation with standard batteries. Its fully portable design integrates control electronics into a wearable bracelet with Bluetooth activation, enhancing practicality. Mechanical tests demonstrated the device’s ability to generate forces exceeding 30 mN and displacements of tens of microns using pulsed signals with modulable durations and frequencies. User tests with voluntary participants confirmed its effectiveness as a tactile display, achieving 83% accuracy in recognizing Braille patterns. By addressing key limitations of traditional systems, this approach offers a promising solution for compact, low-power wearable tactile interfaces.

AB - Tactile displays often face challenges like high power consumption, bulky control systems, and limited portability, hindering their application in wearable technologies. This work presents a novel thermo-pneumatic tactile display that operates via localized heating of a small air volume, enabling low-voltage operation with standard batteries. Its fully portable design integrates control electronics into a wearable bracelet with Bluetooth activation, enhancing practicality. Mechanical tests demonstrated the device’s ability to generate forces exceeding 30 mN and displacements of tens of microns using pulsed signals with modulable durations and frequencies. User tests with voluntary participants confirmed its effectiveness as a tactile display, achieving 83% accuracy in recognizing Braille patterns. By addressing key limitations of traditional systems, this approach offers a promising solution for compact, low-power wearable tactile interfaces.

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VL - 9

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IS - 1

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ER -

Low-voltage wearable tactile display with thermo-pneumatic actuation

Abstract

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