The Effect Of Temperature On The Electrical Conductivity And Microstructure Behaviour Of Silver Particles

Silver conductive ink has been used in the electronics industry due to their potential advantages such as high electrical conductivity and thermal conductivity. However, silver needs to undergo a curing process to reduce the porosity between particles as well as to have a smooth conductive track to...

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Main Authors: Omar, Ghazali, Salim, Mohd Azli, Masripan, Nor Azmmi, Mohd Yunos, Afiqah, Ahmed Al-Mola, Mohammed Hussin
Format: Article
Language:English
Published: Universiti Malaysia Perlis 2020
Online Access:http://eprints.utem.edu.my/id/eprint/24865/2/THE%20EFFECT%20OF%20TEMPERATURE%20ON%20THE%20ELECTRICAL%20CONDUCTIVITY%20AND%20MICROSTRUCTURE%20BEHAVIOUR%20IF%20SILVER%20PARTICLE.PDF
http://eprints.utem.edu.my/id/eprint/24865/
https://ijneam.unimap.edu.my/images/PDF/IJNEAM%20SPECIAL%20ISSUE%20MEI%202020/Vol_13_SI_Mei2020_431-438.pdf
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spelling my.utem.eprints.248652021-03-04T15:25:06Z http://eprints.utem.edu.my/id/eprint/24865/ The Effect Of Temperature On The Electrical Conductivity And Microstructure Behaviour Of Silver Particles Omar, Ghazali Salim, Mohd Azli Masripan, Nor Azmmi Mohd Yunos, Afiqah Ahmed Al-Mola, Mohammed Hussin Silver conductive ink has been used in the electronics industry due to their potential advantages such as high electrical conductivity and thermal conductivity. However, silver needs to undergo a curing process to reduce the porosity between particles as well as to have a smooth conductive track to ensure maximum conductivity. Therefore, the effect of temperature on the electrical conductivity and microstructure were explored. The printing of silver conductive paste was executed on a polymer substrate through screen printing before analysis. Next, an electrical analysis was done to measure the conductivity by using a 4-point probes instrument, followed with microstructure and mechanical analysis which were carried out to observe the structure behaviour and hardness of silver respectively with respect to temperature. The study found that the electrical conductivity of silver increases when temperature elevated. Besides that, the microstructure of silver has a larger size with the increase in temperature, correspondingly cause the silver to have less hardness. In conclusion, temperature plays significant roles in increasing the electrical conductivity of silver. Universiti Malaysia Perlis 2020-05 Article PeerReviewed text en http://eprints.utem.edu.my/id/eprint/24865/2/THE%20EFFECT%20OF%20TEMPERATURE%20ON%20THE%20ELECTRICAL%20CONDUCTIVITY%20AND%20MICROSTRUCTURE%20BEHAVIOUR%20IF%20SILVER%20PARTICLE.PDF Omar, Ghazali and Salim, Mohd Azli and Masripan, Nor Azmmi and Mohd Yunos, Afiqah and Ahmed Al-Mola, Mohammed Hussin (2020) The Effect Of Temperature On The Electrical Conductivity And Microstructure Behaviour Of Silver Particles. International Journal of Nanoelectronics and Materials, 13 (SI). pp. 431-438. ISSN 1985-5761 https://ijneam.unimap.edu.my/images/PDF/IJNEAM%20SPECIAL%20ISSUE%20MEI%202020/Vol_13_SI_Mei2020_431-438.pdf
institution Universiti Teknikal Malaysia Melaka
building UTEM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknikal Malaysia Melaka
content_source UTEM Institutional Repository
url_provider http://eprints.utem.edu.my/
language English
description Silver conductive ink has been used in the electronics industry due to their potential advantages such as high electrical conductivity and thermal conductivity. However, silver needs to undergo a curing process to reduce the porosity between particles as well as to have a smooth conductive track to ensure maximum conductivity. Therefore, the effect of temperature on the electrical conductivity and microstructure were explored. The printing of silver conductive paste was executed on a polymer substrate through screen printing before analysis. Next, an electrical analysis was done to measure the conductivity by using a 4-point probes instrument, followed with microstructure and mechanical analysis which were carried out to observe the structure behaviour and hardness of silver respectively with respect to temperature. The study found that the electrical conductivity of silver increases when temperature elevated. Besides that, the microstructure of silver has a larger size with the increase in temperature, correspondingly cause the silver to have less hardness. In conclusion, temperature plays significant roles in increasing the electrical conductivity of silver.
format Article
author Omar, Ghazali
Salim, Mohd Azli
Masripan, Nor Azmmi
Mohd Yunos, Afiqah
Ahmed Al-Mola, Mohammed Hussin
spellingShingle Omar, Ghazali
Salim, Mohd Azli
Masripan, Nor Azmmi
Mohd Yunos, Afiqah
Ahmed Al-Mola, Mohammed Hussin
The Effect Of Temperature On The Electrical Conductivity And Microstructure Behaviour Of Silver Particles
author_facet Omar, Ghazali
Salim, Mohd Azli
Masripan, Nor Azmmi
Mohd Yunos, Afiqah
Ahmed Al-Mola, Mohammed Hussin
author_sort Omar, Ghazali
title The Effect Of Temperature On The Electrical Conductivity And Microstructure Behaviour Of Silver Particles
title_short The Effect Of Temperature On The Electrical Conductivity And Microstructure Behaviour Of Silver Particles
title_full The Effect Of Temperature On The Electrical Conductivity And Microstructure Behaviour Of Silver Particles
title_fullStr The Effect Of Temperature On The Electrical Conductivity And Microstructure Behaviour Of Silver Particles
title_full_unstemmed The Effect Of Temperature On The Electrical Conductivity And Microstructure Behaviour Of Silver Particles
title_sort effect of temperature on the electrical conductivity and microstructure behaviour of silver particles
publisher Universiti Malaysia Perlis
publishDate 2020
url http://eprints.utem.edu.my/id/eprint/24865/2/THE%20EFFECT%20OF%20TEMPERATURE%20ON%20THE%20ELECTRICAL%20CONDUCTIVITY%20AND%20MICROSTRUCTURE%20BEHAVIOUR%20IF%20SILVER%20PARTICLE.PDF
http://eprints.utem.edu.my/id/eprint/24865/
https://ijneam.unimap.edu.my/images/PDF/IJNEAM%20SPECIAL%20ISSUE%20MEI%202020/Vol_13_SI_Mei2020_431-438.pdf
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score 13.211869