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Self-powered, flexible magnetoelectric materials and devices towards flexible electronics

thesis
posted on 06.07.2021, 21:16 by XUAN ZHANG
Flexible electronics have been rapidly evolving and extensively applied in diverse fields such as soft robots, bendable displays, bioinspired electronic skins, human-computer communications, etc. As for the next-generation flexible electronic devices, their notable technological trends will be more portable, wearable, stand-alone, and even implantable. In this thesis, a novel magnetoelectric strategy based on electromagnetic induction has been proposed for self-powered flexible systems. From functional materials’ Young’s modulus, a variety of flexible magnetoelectric devices with mechanoelectrical conversion capacity have been designed and fabricated by simple mold method, applying for various applications.

History

Campus location

Australia

Principal supervisor

Ruiping Zou

Additional supervisor 1

Bin Su

Year of Award

2021

Department, School or Centre

Chemical Engineering

Course

Doctor of Philosophy

Degree Type

DOCTORATE

Faculty

Faculty of Engineering

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