Electrical effects of GNP/Ag/SA conductive epoxy on copper flexible substrate
Various efforts to improve the performance of printed conductive ink have been conducted in order to obtain its full performance potential. This includes the investigation on the effect of conductive filler particle size towards the electrical conductivity performance. This study focuses on the prod...
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sg-ntu-dr.10356-1816272024-12-13T15:32:09Z Electrical effects of GNP/Ag/SA conductive epoxy on copper flexible substrate Hussin, Hazril Hisham Salim, Mohd Azli Masripan, Nor Azmmi Saad, Adzni Md Akop, Mohd Zaid Chew, Kit Wayne Photong, Chonlatee Feng, Dai School of Chemistry, Chemical Engineering and Biotechnology Engineering Stretchable conductive ink Graphene nanoplatelet Various efforts to improve the performance of printed conductive ink have been conducted in order to obtain its full performance potential. This includes the investigation on the effect of conductive filler particle size towards the electrical conductivity performance. This study focuses on the product condition and electrical performance of graphene nanoplatelet (GNP), silved nano particle (Ag) and silver acetate (SA) as hybrid conductive filler components by varying the particle size of only one the filler component, which is GNP. The GNP/Ag/SA formulation with organic solvent was used by preparing three samples utilizing different GNP particle sizes of 5 µm and 25 µm. The purpose of this experiment is to collect data on the electrical conductivity of ink when employed in circuits and determine the best formulation of conductive ink. The obtained results revealed differences between the inks produced using 5 µm and 25 µm of GNP sizes. The resistivity of the 5 µm samples were was lower than 25 µm samples. The GNP of 5 µm recorded the lowest resistivity of 2.48 x 10-5 Ω.m as compared to 2.63 x 10-5 Ω.m recorded by 25 µm samples. The lower resistivity value indicates that the conductive ink formulated using 5 µm of GNP size has better electrical conductivity performance. The results signify that by using different particle sizes of only one component of hybrid conductive fillers produced different conductive ink performance, especially the electrical conductivity. Published version 2024-12-11T01:52:16Z 2024-12-11T01:52:16Z 2024 Journal Article Hussin, H. H., Salim, M. A., Masripan, N. A., Saad, A. M., Akop, M. Z., Chew, K. W., Photong, C. & Feng, D. (2024). Electrical effects of GNP/Ag/SA conductive epoxy on copper flexible substrate. Journal of Advanced Research in Applied Mechanics, 119(1), 13-26. https://dx.doi.org/10.37934/aram.119.1.1326 2289-7895 https://hdl.handle.net/10356/181627 10.37934/aram.119.1.1326 2-s2.0-85200866589 1 119 13 26 en Journal of Advanced Research in Applied Mechanics © 2024 Penerbit Akademia Baru. This is an open-access article distributed under the terms of the Creative Commons License. application/pdf |
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Engineering Stretchable conductive ink Graphene nanoplatelet |
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Engineering Stretchable conductive ink Graphene nanoplatelet Hussin, Hazril Hisham Salim, Mohd Azli Masripan, Nor Azmmi Saad, Adzni Md Akop, Mohd Zaid Chew, Kit Wayne Photong, Chonlatee Feng, Dai Electrical effects of GNP/Ag/SA conductive epoxy on copper flexible substrate |
| description |
Various efforts to improve the performance of printed conductive ink have been conducted in order to obtain its full performance potential. This includes the investigation on the effect of conductive filler particle size towards the electrical conductivity performance. This study focuses on the product condition and electrical performance of graphene nanoplatelet (GNP), silved nano particle (Ag) and silver acetate (SA) as hybrid conductive filler components by varying the particle size of only one the filler component, which is GNP. The GNP/Ag/SA formulation with organic solvent was used by preparing three samples utilizing different GNP particle sizes of 5 µm and 25 µm. The purpose of this experiment is to collect data on the electrical conductivity of ink when employed in circuits and determine the best formulation of conductive ink. The obtained results revealed differences between the inks produced using 5 µm and 25 µm of GNP sizes. The resistivity of the 5 µm samples were was lower than 25 µm samples. The GNP of 5 µm recorded the lowest resistivity of 2.48 x 10-5 Ω.m as compared to 2.63 x 10-5 Ω.m recorded by 25 µm samples. The lower resistivity value indicates that the conductive ink formulated using 5 µm of GNP size has better electrical conductivity performance. The results signify that by using different particle sizes of only one component of hybrid conductive fillers produced different conductive ink performance, especially the electrical conductivity. |
| author2 |
School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Hussin, Hazril Hisham Salim, Mohd Azli Masripan, Nor Azmmi Saad, Adzni Md Akop, Mohd Zaid Chew, Kit Wayne Photong, Chonlatee Feng, Dai |
| format |
Article |
| author |
Hussin, Hazril Hisham Salim, Mohd Azli Masripan, Nor Azmmi Saad, Adzni Md Akop, Mohd Zaid Chew, Kit Wayne Photong, Chonlatee Feng, Dai |
| author_sort |
Hussin, Hazril Hisham |
| title |
Electrical effects of GNP/Ag/SA conductive epoxy on copper flexible substrate |
| title_short |
Electrical effects of GNP/Ag/SA conductive epoxy on copper flexible substrate |
| title_full |
Electrical effects of GNP/Ag/SA conductive epoxy on copper flexible substrate |
| title_fullStr |
Electrical effects of GNP/Ag/SA conductive epoxy on copper flexible substrate |
| title_full_unstemmed |
Electrical effects of GNP/Ag/SA conductive epoxy on copper flexible substrate |
| title_sort |
electrical effects of gnp/ag/sa conductive epoxy on copper flexible substrate |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/181627 |
| _version_ |
1819113044229226496 |