Electrical resistance reduction induced with CO₂ laser single line scan of polyimide
We conducted a laser parameter study on CO₂ laser induced electrical conductivity on a polyimide film. The induced electrical conductivity was found to occur dominantly at the center of the scanning line instead of uniformly across the whole line width. MicroRaman examination revealed that the condu...
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sg-ntu-dr.10356-1517662023-03-04T17:22:29Z Electrical resistance reduction induced with CO₂ laser single line scan of polyimide Wang, Zhongke Tan, Kok Keat Lam, Yee Cheong School of Mechanical and Aerospace Engineering Singapore Institute of Manufacturing Technology SIMTech-NTU Joint Laboratory Engineering::Mechanical engineering CO₂ Laser Irradiation Polyimide Film We conducted a laser parameter study on CO₂ laser induced electrical conductivity on a polyimide film. The induced electrical conductivity was found to occur dominantly at the center of the scanning line instead of uniformly across the whole line width. MicroRaman examination revealed that the conductivity was mainly a result of the multi-layers (4–5) of graphene structure induced at the laser irradiation line center. The graphene morphology at the line center appeared as thin wall porous structures together with nano level fiber structures. With sufficient energy dose per unit length and laser power, this surface modification for electrical conductivity was independent of laser pulse frequency but was instead determined by the average laser power. High electrical conductivity could be achieved by a single scan of laser beam at a sufficiently high-power level. To achieve high conductivity, it was not efficient nor effective to utilize a laser at low power but compensating it with a slower scanning speed or having multiple scans. The electrical resistance over a 10 mm scanned length decreased significantly from a few hundred Ohms to 30 Ohms when energy dose per unit length increased from 0.16 J/mm to 1.0 J/mm, i.e., the laser power increased from 5.0 W to 24 W with corresponding power density of 3.44 × 10 W/cm² to 16.54 W/cm² respectively at a speed of 12.5 mm/s for a single pass scan. In contrast, power below 5 W at speeds exceeding 22.5 mm/s resulted in a non-conductive open loop. Agency for Science, Technology and Research (A*STAR) Nanyang Technological University Published version The research work was supported by SIMTech-NTU Joint Laboratory with project No. U12-M-007JL, and A-Star Research Agency, Singapore Institute of Manufacturing Technology (SIMTech) under project No. C16-M-036 Selective Laser Activation for 3D Molded Interconnected Devices & for Antibacterial Applications. 2021-07-15T10:46:29Z 2021-07-15T10:46:29Z 2021 Journal Article Wang, Z., Tan, K. K. & Lam, Y. C. (2021). Electrical resistance reduction induced with CO₂ laser single line scan of polyimide. Micromachines, 12(3), 227-. https://dx.doi.org/10.3390/mi12030227 2072-666X https://hdl.handle.net/10356/151766 10.3390/mi12030227 33668402 2-s2.0-85102613938 3 12 227 en U12-M-007JL C16-M-036 Micromachines © 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Mechanical engineering CO₂ Laser Irradiation Polyimide Film Wang, Zhongke Tan, Kok Keat Lam, Yee Cheong Electrical resistance reduction induced with CO₂ laser single line scan of polyimide |
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We conducted a laser parameter study on CO₂ laser induced electrical conductivity on a polyimide film. The induced electrical conductivity was found to occur dominantly at the center of the scanning line instead of uniformly across the whole line width. MicroRaman examination revealed that the conductivity was mainly a result of the multi-layers (4–5) of graphene structure induced at the laser irradiation line center. The graphene morphology at the line center appeared as thin wall porous structures together with nano level fiber structures. With sufficient energy dose per unit length and laser power, this surface modification for electrical conductivity was independent of laser pulse frequency but was instead determined by the average laser power. High electrical conductivity could be achieved by a single scan of laser beam at a sufficiently high-power level. To achieve high conductivity, it was not efficient nor effective to utilize a laser at low power but compensating it with a slower scanning speed or having multiple scans. The electrical resistance over a 10 mm scanned length decreased significantly from a few hundred Ohms to 30 Ohms when energy dose per unit length increased from 0.16 J/mm to 1.0 J/mm, i.e., the laser power increased from 5.0 W to 24 W with corresponding power density of 3.44 × 10 W/cm² to 16.54 W/cm² respectively at a speed of 12.5 mm/s for a single pass scan. In contrast, power below 5 W at speeds exceeding 22.5 mm/s resulted in a non-conductive open loop. |
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School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Wang, Zhongke Tan, Kok Keat Lam, Yee Cheong |
| format |
Article |
| author |
Wang, Zhongke Tan, Kok Keat Lam, Yee Cheong |
| author_sort |
Wang, Zhongke |
| title |
Electrical resistance reduction induced with CO₂ laser single line scan of polyimide |
| title_short |
Electrical resistance reduction induced with CO₂ laser single line scan of polyimide |
| title_full |
Electrical resistance reduction induced with CO₂ laser single line scan of polyimide |
| title_fullStr |
Electrical resistance reduction induced with CO₂ laser single line scan of polyimide |
| title_full_unstemmed |
Electrical resistance reduction induced with CO₂ laser single line scan of polyimide |
| title_sort |
electrical resistance reduction induced with co₂ laser single line scan of polyimide |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151766 |
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1759857232268230656 |