In-situ Growth of the Co3O4 Laser Induced Graphene for Flexible Electronics Application

Himanshi Awasthi; Vrinda Thakur; Thomas Thundat; Sanket Goel

doi:10.1109/ICST59744.2023.10460804

In-situ Growth of the Co₃O₄ Laser Induced Graphene for Flexible Electronics Application

Himanshi Awasthi
, Vrinda Thakur
, Thomas Thundat
, Sanket Goel

Department of Chemical and Biological Engineering

University at Buffalo

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Scopus citations

Abstract

Emerging biodegradable and environmentally friendly technologies have the potential to change the futuristic landscape in the flexible electronics area. The paper-based substrates appear as a cost-effective and easily modifiable substance, making it a highly promising choice for flexible electronics. The incorporation of metal doping onto flexible substrates enhances the electrical, mechanical, and UV responsivity and sensitivity, thereby making them versatile for specific applications. This work introduces a modified paper with the in-situ growth of the Co₃O₄ laser-induced graphene material that is suitable for flexible electronics applications. In this study, the developed material has been utilized and validated in three different applications, supercapacitor, touch sensor, and bending analysis.

Original language	English
Title of host publication	2023 16th International Conference on Sensing Technology, ICST 2023
Publisher	IEEE Computer Society
ISBN (Electronic)	9798350395341
DOIs	https://doi.org/10.1109/ICST59744.2023.10460804
State	Published - 2023
Event	16th International Conference on Sensing Technology, ICST 2023 - Hyderabad, India Duration: Dec 17 2023 → Dec 20 2023

Publication series

Name	Proceedings of the International Conference on Sensing Technology, ICST

Conference

Conference	16th International Conference on Sensing Technology, ICST 2023
Country/Territory	India
City	Hyderabad
Period	12/17/23 → 12/20/23

Keywords

Flexible Electronics
Metal doped Films
Super Capacitor (SC)
Touch Sensor

Access to Document

10.1109/ICST59744.2023.10460804

Cite this

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title = "In-situ Growth of the Co3O4 Laser Induced Graphene for Flexible Electronics Application",

abstract = "Emerging biodegradable and environmentally friendly technologies have the potential to change the futuristic landscape in the flexible electronics area. The paper-based substrates appear as a cost-effective and easily modifiable substance, making it a highly promising choice for flexible electronics. The incorporation of metal doping onto flexible substrates enhances the electrical, mechanical, and UV responsivity and sensitivity, thereby making them versatile for specific applications. This work introduces a modified paper with the in-situ growth of the Co3O4 laser-induced graphene material that is suitable for flexible electronics applications. In this study, the developed material has been utilized and validated in three different applications, supercapacitor, touch sensor, and bending analysis.",

keywords = "Flexible Electronics, Metal doped Films, Super Capacitor (SC), Touch Sensor",

author = "Himanshi Awasthi and Vrinda Thakur and Thomas Thundat and Sanket Goel",

note = "Publisher Copyright: {\textcopyright} 2023 IEEE.; 16th International Conference on Sensing Technology, ICST 2023 ; Conference date: 17-12-2023 Through 20-12-2023",

year = "2023",

doi = "10.1109/ICST59744.2023.10460804",

language = "English",

series = "Proceedings of the International Conference on Sensing Technology, ICST",

publisher = "IEEE Computer Society",

booktitle = "2023 16th International Conference on Sensing Technology, ICST 2023",

address = "United States",

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Awasthi, H, Thakur, V, Thundat, T & Goel, S 2023, In-situ Growth of the Co₃O₄ Laser Induced Graphene for Flexible Electronics Application. in 2023 16th International Conference on Sensing Technology, ICST 2023. Proceedings of the International Conference on Sensing Technology, ICST, IEEE Computer Society, 16th International Conference on Sensing Technology, ICST 2023, Hyderabad, India, 12/17/23. https://doi.org/10.1109/ICST59744.2023.10460804

In-situ Growth of the Co₃O₄ Laser Induced Graphene for Flexible Electronics Application. / Awasthi, Himanshi; Thakur, Vrinda; Thundat, Thomas et al.
2023 16th International Conference on Sensing Technology, ICST 2023. IEEE Computer Society, 2023. (Proceedings of the International Conference on Sensing Technology, ICST).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AB - Emerging biodegradable and environmentally friendly technologies have the potential to change the futuristic landscape in the flexible electronics area. The paper-based substrates appear as a cost-effective and easily modifiable substance, making it a highly promising choice for flexible electronics. The incorporation of metal doping onto flexible substrates enhances the electrical, mechanical, and UV responsivity and sensitivity, thereby making them versatile for specific applications. This work introduces a modified paper with the in-situ growth of the Co3O4 laser-induced graphene material that is suitable for flexible electronics applications. In this study, the developed material has been utilized and validated in three different applications, supercapacitor, touch sensor, and bending analysis.

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