Improved Performance of Flexible Graphene Heater Based on Repeated Laser Writing

The electrothermal performance of laser-induced graphene (LIG)- based heater can be improved by increasing the laser power in a certain range. However, excessive laser power will cause the produced LIG film to detach from the substrate, resulting in the degradation of performance. In this letter, a...

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Veröffentlicht in:	IEEE electron device letters 2020-03, Vol.41 (3), p.501-504
Hauptverfasser:	Huang, Yexiong, Tao, Lu-Qi, Yu, Jiabin, Zheng, Kai, Wang, Guanya, Chen, Xianping
Format:	Artikel
Sprache:	eng
Schlagworte:	flexible heater Graphene Heating systems Irradiation Laser- induced graphene Lasers Performance degradation Performance evaluation Power lasers repeated laser writing Steady-state Substrates Writing
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creator	Huang, Yexiong Tao, Lu-Qi Yu, Jiabin Zheng, Kai Wang, Guanya Chen, Xianping
description	The electrothermal performance of laser-induced graphene (LIG)- based heater can be improved by increasing the laser power in a certain range. However, excessive laser power will cause the produced LIG film to detach from the substrate, resulting in the degradation of performance. In this letter, a novel strategy of repeated laser writing is proposed to further improve the electrothermal performance of LIG-based heater. The best optimized result appears after four- time repeated laser writing at a certain power. After the device is irradiated for four times, the best steady-state temperature increases by 103.8%, which is 43.8% higher than that of the heater fabricated by the method of only increasing the laser power while not repeated laser irradiation.
doi_str_mv	10.1109/LED.2020.2965585
format	Article
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However, excessive laser power will cause the produced LIG film to detach from the substrate, resulting in the degradation of performance. In this letter, a novel strategy of repeated laser writing is proposed to further improve the electrothermal performance of LIG-based heater. The best optimized result appears after four- time repeated laser writing at a certain power. 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However, excessive laser power will cause the produced LIG film to detach from the substrate, resulting in the degradation of performance. In this letter, a novel strategy of repeated laser writing is proposed to further improve the electrothermal performance of LIG-based heater. The best optimized result appears after four- time repeated laser writing at a certain power. 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subjects	flexible heater Graphene Heating systems Irradiation Laser- induced graphene Lasers Performance degradation Performance evaluation Power lasers repeated laser writing Steady-state Substrates Writing
title	Improved Performance of Flexible Graphene Heater Based on Repeated Laser Writing
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