The investigation of electrothermal response and reliability of flexible graphene micro-heaters

The investigation of electrothermal response and reliability of flexible graphene micro-heaters

This study developed a flexible graphene micro-heater that can be used for high efficient temperature control and has outstanding long-term performance using ultrafast laser ablation. The input voltages (V), electrode widths (W), and electrode patterns (2–4 finger) were discussed to determine their...

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Bibliographic Details
Published in:Microelectronic engineering Vol. 228; p. 111334
Main Authors: Wang, Chien-Ping, Hsiao, Ming-Hung, Lee, Guo-Hua, Chang, Tien-Li, Lee, Ya-Wei
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-05-2020
Elsevier BV
Subjects:
Electrodes
Electrothermal
Flexible
Graphene
Heating
Heating rate
Laser ablation
Laser beam heating
Micro-heater
Temperature
Temperature control
Thermal cycling
Ultrafast laser ablation
Ultrafast lasers
Ultrafast laser ablation
Micro-heater
Electrothermal
Flexible
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Summary:This study developed a flexible graphene micro-heater that can be used for high efficient temperature control and has outstanding long-term performance using ultrafast laser ablation. The input voltages (V), electrode widths (W), and electrode patterns (2–4 finger) were discussed to determine their effects on electrothermal response and switching performance of the micro-heaters. The experimental results confirmed the outstanding performance of the micro-heaters during on−off operation under varying input voltages. At W = 500 μm, time to steady state tss were less than 3 s for the input voltages from 10 V to 30 V under varying electrode patterns. The micro-heater exhibited a superior heating rate of 15.7 °C/s using ultrafast laser ablation. The experimental results revealed that the increasing rate of heater temperature with respect to input voltage increased as the number of electrode fingers decreased, especially under high input voltages. The thermal cycling and bending experiments revealed excellent temperature stability and durability (<1 °C) of the micro-heater. The present study showed that the flexible graphene micro-heater is a high efficient and a reliable device for heating applications using ultrafast laser ablations. [Display omitted] •This study developed a high efficient flexible graphene micro-heater using ultrafast laser ablation.•The increasing rate of heater temperature increased as the number of electrode fingers decreased.•At W=500 μm, tss were less than 3 s for the voltages from 10 V to 30 V with heating rate of 15.7 °C/s.•The thermal cycling and bending tests revealed excellent stability and durability.
ISSN:0167-9317
1873-5568
DOI:10.1016/j.mee.2020.111334