Electrical, morphological and surface roughness analysis of silver nanoparticles-filled epoxy conductive ink
Conductive ink has become a potential alternative to replace the conventional circuitry in electronic applications. Due to this, various efforts have been conducted to obtain the optimum ink formulation that can fulfill the current demand. The objective of this study is to determine the performance...
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Science and Technology Research Institute for Defence
2021
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| Online Access: | http://eprints.utem.edu.my/id/eprint/25788/2/ELECTRICAL%2C%20MORPHOLOGICAL%20AND%20SURFACE%20ROUGHNESS%20ANALYSIS%20OF%20SILVER%20NANOPARTICLES-FILLED%20EPOXY%20CONDUCTIVE%20INK.PDF http://eprints.utem.edu.my/id/eprint/25788/ https://www.stride.gov.my/v3/images/buletin-teknikal/2021_vol_14_num_2.pdf |
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my.utem.eprints.257882023-05-26T08:57:11Z http://eprints.utem.edu.my/id/eprint/25788/ Electrical, morphological and surface roughness analysis of silver nanoparticles-filled epoxy conductive ink Salim, Mohd Azli Md. Saad, Adzni Ahmad, Fauzi Hamidi, Roshidah Ali, Murni Dai, Feng Conductive ink has become a potential alternative to replace the conventional circuitry in electronic applications. Due to this, various efforts have been conducted to obtain the optimum ink formulation that can fulfill the current demand. The objective of this study is to determine the performance of different formulations of silver nanoparticles-filled epoxy conductive ink with various filler loadings in terms of electrical conductivity. The main investigated parameter was the sheet resistance of the composition. The changes of morphology of the ink surface and surface roughness were also examined, which directly correlated to the sheet resistivity. The obtained results showed that the minimum threshold of silver nanoparticles (AgNP) filler required was 60 %wt for the ink to conduct electricity. However, this filler loading was not acceptable because of the wide dispersion of data. The ink filler loadings that can conduct electricity also showed the presence of granular particles on the ink layer surfaces, which also increased their surface roughness. The sheet resistance value also achieved a saturated value with filler loading of 90 %wt. It means that further addition of filler loading is not going to further improve the sheet resistivity of the composition. Based on this study, it can be summarised that the percentages of AgNP filler loadings of conductive ink that can fulfil the acceptable performance are between 70 to 90 %wt. Science and Technology Research Institute for Defence 2021 Article PeerReviewed text en http://eprints.utem.edu.my/id/eprint/25788/2/ELECTRICAL%2C%20MORPHOLOGICAL%20AND%20SURFACE%20ROUGHNESS%20ANALYSIS%20OF%20SILVER%20NANOPARTICLES-FILLED%20EPOXY%20CONDUCTIVE%20INK.PDF Salim, Mohd Azli and Md. Saad, Adzni and Ahmad, Fauzi and Hamidi, Roshidah and Ali, Murni and Dai, Feng (2021) Electrical, morphological and surface roughness analysis of silver nanoparticles-filled epoxy conductive ink. Defence S and T Technical Bulletin, 14 (2). pp. 123-134. ISSN 1985-6571 https://www.stride.gov.my/v3/images/buletin-teknikal/2021_vol_14_num_2.pdf |
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Conductive ink has become a potential alternative to replace the conventional circuitry in electronic applications. Due to this, various efforts have been conducted to obtain the optimum ink formulation that can fulfill the current demand. The objective of this study is to determine the performance of different formulations of silver nanoparticles-filled epoxy conductive ink with various filler loadings in terms of electrical conductivity. The main investigated parameter was the sheet resistance of the composition. The changes of morphology of the ink surface and surface roughness were also examined, which directly correlated to the sheet resistivity. The obtained results showed that the minimum threshold of silver nanoparticles (AgNP) filler required was 60 %wt for the ink to conduct electricity. However, this filler loading was not acceptable because of the wide dispersion of data. The ink filler loadings that can conduct electricity also showed the presence of granular particles on the ink layer surfaces, which also increased their surface roughness. The sheet resistance value also achieved a saturated value with filler loading of 90 %wt. It means that further addition of filler loading is not going to further improve the sheet resistivity of the composition. Based on this study, it can be summarised that the percentages of AgNP filler loadings of conductive ink that can fulfil the acceptable performance are between 70 to 90 %wt. |
| format |
Article |
| author |
Salim, Mohd Azli Md. Saad, Adzni Ahmad, Fauzi Hamidi, Roshidah Ali, Murni Dai, Feng |
| spellingShingle |
Salim, Mohd Azli Md. Saad, Adzni Ahmad, Fauzi Hamidi, Roshidah Ali, Murni Dai, Feng Electrical, morphological and surface roughness analysis of silver nanoparticles-filled epoxy conductive ink |
| author_facet |
Salim, Mohd Azli Md. Saad, Adzni Ahmad, Fauzi Hamidi, Roshidah Ali, Murni Dai, Feng |
| author_sort |
Salim, Mohd Azli |
| title |
Electrical, morphological and surface roughness analysis of silver nanoparticles-filled epoxy conductive ink |
| title_short |
Electrical, morphological and surface roughness analysis of silver nanoparticles-filled epoxy conductive ink |
| title_full |
Electrical, morphological and surface roughness analysis of silver nanoparticles-filled epoxy conductive ink |
| title_fullStr |
Electrical, morphological and surface roughness analysis of silver nanoparticles-filled epoxy conductive ink |
| title_full_unstemmed |
Electrical, morphological and surface roughness analysis of silver nanoparticles-filled epoxy conductive ink |
| title_sort |
electrical, morphological and surface roughness analysis of silver nanoparticles-filled epoxy conductive ink |
| publisher |
Science and Technology Research Institute for Defence |
| publishDate |
2021 |
| url |
http://eprints.utem.edu.my/id/eprint/25788/2/ELECTRICAL%2C%20MORPHOLOGICAL%20AND%20SURFACE%20ROUGHNESS%20ANALYSIS%20OF%20SILVER%20NANOPARTICLES-FILLED%20EPOXY%20CONDUCTIVE%20INK.PDF http://eprints.utem.edu.my/id/eprint/25788/ https://www.stride.gov.my/v3/images/buletin-teknikal/2021_vol_14_num_2.pdf |
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