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Laser Direct Writing Assisted Fabrication of Skin Compatible Metal Electrodes
Author(s) -
Gao Liang,
Wang Xiaohan,
Dai Wentao,
Bagheri Robabeh,
Wang Chen,
Tian Zikang,
Dai Xiao,
Zou Guifu
Publication year - 2020
Publication title -
advanced materials technologies
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.184
H-Index - 42
ISSN - 2365-709X
DOI - 10.1002/admt.202000012
Subject(s) - electrode , materials science , fabrication , electrical conductor , sheet resistance , optoelectronics , laser , stretchable electronics , nanotechnology , electronics , flexible electronics , composite material , optics , electrical engineering , layer (electronics) , chemistry , medicine , physics , alternative medicine , engineering , pathology
Abstract Skin‐compatible electrodes have been studied intensively for its application in wearable electronics. To satisfy various deformations of electronic skin, it requires to fabricate a highly conductive, mechanically stable, flexible, and stretchable electrode. Here, a feasible laser direct writing (LDW) process is carried out to fabricate micro‐spring structured metal electrodes. The metal electrodes show high conductivity and transparency with sheet resistance of 4.8 ohm per square and at transmittance of 83%. It is worthy of noting that, the metal electrodes have an excellent mechanical–electrical stability, where stretching over 75% and bending over 5000 times induces resistance variance less than 5% and 2%, respectively. The excellent mechanical and electrical behavior of the micro‐spring metal electrodes are promising to be useful for wearable electronics. The LDW process may facilitate the design and prototype of the skin compatible metal electrodes in the coming future.