Sensitive Flexible Magnetic Sensors using Organic Transistors with Magnetic-Functionalized Suspended Gate Electrodes

Yaping Zang; Fengjiao Zhang; Dazhen Huang; Chong-an Di; Daoben Zhu

doi:10.1002/adma.201503542

Back

Sensitive Flexible Magnetic Sensors using Organic Transistors with Magnetic-Functionalized Suspended Gate Electrodes

Journal article

Peer reviewed

Sensitive Flexible Magnetic Sensors using Organic Transistors with Magnetic-Functionalized Suspended Gate Electrodes

Yaping Zang, Fengjiao Zhang, Dazhen Huang, Chong-an Di and Daoben Zhu

Advanced materials (Weinheim), Vol.27(48), pp.7979-7985

22/12/2015

DOI: https://doi.org/10.1002/adma.201503542

PMID: 26523840

Abstract

Chemistry

Chemistry, Multidisciplinary

Chemistry, Physical

Materials Science

Materials Science, Multidisciplinary

Nanoscience & Nanotechnology

Physical Sciences

Physics

Physics, Applied

Physics, Condensed Matter

Science & Technology

Science & Technology - Other Topics

Technology

Utilizing a magnetic-functionalized suspended gate with combined features of outstanding conductivity, flexibility, and magnetic properties, flexible magnetic sensor based on an organic field-effect transistor (OFET), with a high sensitivity of 115.2% mT(-1) is demonstrated. Gate engineering enables the sensing devices to possess promising applications for flexible touchless switches and spatially-resolved magnetic-imaging elements.

Metrics

1 Record Views

See more details

Details

Title: Sensitive Flexible Magnetic Sensors using Organic Transistors with Magnetic-Functionalized Suspended Gate Electrodes
Creators - without role: Yaping Zang - Beijing National Laboratory for Molecular Sciences
Fengjiao Zhang - Beijing National Laboratory for Molecular Sciences
Dazhen Huang - Chinese Academy of Sciences
Chong-an Di - Beijing National Laboratory for Molecular Sciences
Daoben Zhu - Beijing National Laboratory for Molecular Sciences
Publication Details: Advanced materials (Weinheim), Vol.27(48), pp.7979-7985
Publisher: Wiley
Number of pages: 7
Grant note: XDB12010000 / Strategic Priority Research Program of the Chinese Academy of Sciences; Chinese Academy of Sciences 21422310; 61571423; 61171055; 21333011 / National Natural Science Foundation; National Natural Science Foundation of China (NSFC)
Identifiers: 9945366708331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Journal article