Self-sensing paper-based actuators employing ferromagnetic nanoparticles and graphite

Paper-based microfluidics and sensors have attracted great attention. Although a large number of paper-based devices have been developed, surprisingly there are only a few studies investigating paper actuators. To fulfill the requirements for the integration of both sensors and actuators into paper,...

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Veröffentlicht in:	Applied physics letters 2017-04, Vol.110 (14)
Hauptverfasser:	Phan, Hoang-Phuong, Dinh, Toan, Nguyen, Tuan-Khoa, Vatani, Ashkan, Md Foisal, Abu Riduan, Qamar, Afzaal, Kermany, Atieh Ranjbar, Dao, Dzung Viet, Nguyen, Nam-Trung
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Sprache:	eng
Schlagworte:	Actuation Actuators Applied physics Dynamic response Ferromagnetism Graphite Image detection Image processing Microfluidics Motion perception Nanoparticles Sensors
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container_title	Applied physics letters
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creator	Phan, Hoang-Phuong Dinh, Toan Nguyen, Tuan-Khoa Vatani, Ashkan Md Foisal, Abu Riduan Qamar, Afzaal Kermany, Atieh Ranjbar Dao, Dzung Viet Nguyen, Nam-Trung
description	Paper-based microfluidics and sensors have attracted great attention. Although a large number of paper-based devices have been developed, surprisingly there are only a few studies investigating paper actuators. To fulfill the requirements for the integration of both sensors and actuators into paper, this work presents an unprecedented platform which utilizes ferromagnetic particles for actuation and graphite for motion monitoring. The use of the integrated mechanical sensing element eliminates the reliance on image processing for motion detection and also allows real-time measurements of the dynamic response in paper-based actuators. The proposed platform can also be quickly fabricated using a simple process, indicating its potential for controllable paper-based lab on chip.
doi_str_mv	10.1063/1.4979701
format	Article
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subjects	Actuation Actuators Applied physics Dynamic response Ferromagnetism Graphite Image detection Image processing Microfluidics Motion perception Nanoparticles Sensors
title	Self-sensing paper-based actuators employing ferromagnetic nanoparticles and graphite
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