Low-Frequency Self-Powered Footstep Sensor Based on ZnO Nanowires on Paper Substrate.

Nour, E S; Bondarevs, A; Huss, P; Sandberg, M; Gong, S; Willander, M; Nur, O

Nour, E S; Bondarevs, A; Huss, P; Sandberg, M; Gong, S; Willander, M; Nur, O.

Affiliation

Nour ES; Department of Science and Technology (ITN), Linköping University, Campus Norrkoping, SE-60 174, Norrköping, Sweden. eiman.satti.osman@liu.se.
Bondarevs A; Department of Science and Technology (ITN), Linköping University, Campus Norrkoping, SE-60 174, Norrköping, Sweden.
Huss P; Department of Science and Technology (ITN), Linköping University, Campus Norrkoping, SE-60 174, Norrköping, Sweden.
Sandberg M; Department of Science and Technology (ITN), Linköping University, Campus Norrkoping, SE-60 174, Norrköping, Sweden.
Gong S; Printed Electronics, Acreo AB, P.O. Box 787, 60117, Norrköping, Sweden.
Willander M; Department of Science and Technology (ITN), Linköping University, Campus Norrkoping, SE-60 174, Norrköping, Sweden.
Nur O; Department of Science and Technology (ITN), Linköping University, Campus Norrkoping, SE-60 174, Norrköping, Sweden.

Nanoscale Res Lett ; 11(1): 156, 2016 Dec.

Article in En | MEDLINE | ID: mdl-27000024

ABSTRACT

ABSTRACT

In this work, we design and fabricate a wireless system with the main operating device based on zinc oxide (ZnO) nanowires. The main operating device is based on piezoelectric nanogenerator (NG) achieved using ZnO nanowires grown hydrothermally on paper substrate. The fabricated NG is capable of harvesting ambient mechanical energy from various kinds of human motion, e.g., footsteps. The harvested electric output has been used to serve as a self-powered pressure sensor. Without any storage device, the signal from a single footstep has successfully triggered a wireless sensor node circuit. This study demonstrates the feasibility of using ZnO nanowire piezoelectric NG as a low-frequency self-powered sensor, with potential applications in wireless sensor networks.

Key words

Energy harvesting; Hydrothermal growth; Nanogenerator; Piezoelectric nanowire; Wireless data transmission; ZnO

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Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: Nanoscale Res Lett Year: 2016 Document type: Article Affiliation country: Sweden Publication country: EEUU / ESTADOS UNIDOS / ESTADOS UNIDOS DA AMERICA / EUA / UNITED STATES / UNITED STATES OF AMERICA / US / USA

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