Effect of the different printing patterns of Graphene Nanoparticles in conductive ink on electrical and mechanical performance
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my.unimap-734442022-01-18T01:07:54Z Effect of the different printing patterns of Graphene Nanoparticles in conductive ink on electrical and mechanical performance Adzni, Md. Saad Mohd Azli, Salim Mohammed Hussin A. Al-Mola Fauzi, Ahmad Hartini, Saad Mohd Zaid, Akop azli@utem.edu.my Graphene nanoparticles Conductive ink Sheet resistivity Nanoindentation Morphology analysis Link to publisher's homepage at http://ijneam.unimap.edu.my The utilization of graphene in the formation of conductive ink has been positively accepted by the electronics industry especially with the emerging of printable and flexible electronics. Because of that, it motivates this study to investigate the electrical, mechanical, and morphological properties for different patterns of Graphene Nanoparticle (GNP) conductive ink. The samples were prepared using the screen-printing technique with a low annealing temperature of 100 ºC for 30 minutes. The investigated parameter for the electrical property was the sheet resistivity, which showed that the zigzag pattern recorded the highest value of 1.077 kΩ/sq at the 3 mm of ink thickness. For the mechanical properties, the highest of hardness for 2 mm thickness was the curve pattern and for 3 mm was the square pattern, with the values of 3.849 GPa and 4.913 GPa. Both maximum values showed a direct correlation with the behavior of the elastic modulus of the ink. The maximum values of elastic modulus were recorded at the same ink pattern and thickness. For the morphological analysis, the surface roughness and qualitative analysis using SEM images were performed. The surface roughness showed that the increase of GNP in the composition increased the surface roughness because it decreased the homogeneity of the mixture. The recorded SEM images of the ink layer microstructure surface showed a direct correlation with the obtained sheet resistivity data. The samples that produced high sheet resistivity showed the presence of bumps, creases, and defects on the ink layer surface. Based on the obtained data, the correlation between electrical, mechanical, and morphological properties can be established for the GNP conductive ink with various patterns and thicknesses. 2022-01-18T01:07:54Z 2022-01-18T01:07:54Z 2021-08 Article International Journal of Nanoelectronics and Materials, vol.14(Special Issue), 2021, pages 225-240 1985-5761 (Printed) 1997-4434 (Online) http://dspace.unimap.edu.my:80/xmlui/handle/123456789/73444 http://ijneam.unimap.edu.my en Universiti Malaysia Perlis (UniMAP) |
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Graphene nanoparticles Conductive ink Sheet resistivity Nanoindentation Morphology analysis Adzni, Md. Saad Mohd Azli, Salim Mohammed Hussin A. Al-Mola Fauzi, Ahmad Hartini, Saad Mohd Zaid, Akop Effect of the different printing patterns of Graphene Nanoparticles in conductive ink on electrical and mechanical performance |
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Link to publisher's homepage at http://ijneam.unimap.edu.my |
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azli@utem.edu.my |
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azli@utem.edu.my Adzni, Md. Saad Mohd Azli, Salim Mohammed Hussin A. Al-Mola Fauzi, Ahmad Hartini, Saad Mohd Zaid, Akop |
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Article |
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Adzni, Md. Saad Mohd Azli, Salim Mohammed Hussin A. Al-Mola Fauzi, Ahmad Hartini, Saad Mohd Zaid, Akop |
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Adzni, Md. Saad |
title |
Effect of the different printing patterns of Graphene Nanoparticles in conductive ink on electrical and mechanical performance |
title_short |
Effect of the different printing patterns of Graphene Nanoparticles in conductive ink on electrical and mechanical performance |
title_full |
Effect of the different printing patterns of Graphene Nanoparticles in conductive ink on electrical and mechanical performance |
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Effect of the different printing patterns of Graphene Nanoparticles in conductive ink on electrical and mechanical performance |
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Effect of the different printing patterns of Graphene Nanoparticles in conductive ink on electrical and mechanical performance |
title_sort |
effect of the different printing patterns of graphene nanoparticles in conductive ink on electrical and mechanical performance |
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Universiti Malaysia Perlis (UniMAP) |
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2022 |
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http://dspace.unimap.edu.my:80/xmlui/handle/123456789/73444 |
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1729704634747977728 |
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13.222552 |