Effect of treated silver nanoparticles to electrical conductivity improvement of electrically conductive adhesive (ECA)
Electrically conductive adhesive (ECA) is a popular alternative to replace lead solder interconnect material in most areas of electronic packaging. ECA mainly consists of an organic/polymeric binder matrix and metal filler. These composite materials provide both physical adhesion and electrical cond...
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my.uniten.dspace-309772023-12-29T15:57:07Z Effect of treated silver nanoparticles to electrical conductivity improvement of electrically conductive adhesive (ECA) Kornain Z. Amin N. Jalar A. Cheah A.Y. Ahmad I. 24341024000 7102424614 11539926200 26632778200 12792216600 Brazing Chip scale packages Composite micromechanics Cost reduction Coupling agents Electric conductivity Electric network analysis Epoxy resins Lead Processing Silanes Silver Surface treatment Welding After-treatment Binder matrix Conductive fillers Current conductivity Dispersivity Electrical conductivity Electrical property Electrically conductive adhesives Electronic Packaging Environmental friendliness Epoxy systems Filler loading Fine-pitch capability Interconnect materials Lead solders Light microscopy Metal fillers Morphological study Processing costs Processing steps Processing temperature Silver nanoparticles Silver particles Fillers Electrically conductive adhesive (ECA) is a popular alternative to replace lead solder interconnect material in most areas of electronic packaging. ECA mainly consists of an organic/polymeric binder matrix and metal filler. These composite materials provide both physical adhesion and electrical conductivity. Compared to the solder technology, ECA offers numerous advantages, such as environmental friendliness, lower processing temperature, fewer processing steps (reducing processing cost), and especially, the fine pitch capability attributed to the availability of small sized conductive fillers. Here, 70-nm sized silver particle filler (Ag) has been used to study the effect to electrical conductivity of ECA after surface treatment. Upon surface treatment of silver with silane-based coupling agent, the treated silver filled epoxy system demonstrated incredible improvement in electrical properties. The current conductivity (DC) for treated filler was 4.01 S/cm compared with untreated filler with 4.54E-03 S/cm for 5%w filler loading. Morphological studies using light microscopy micrographs have shown perceptible enhancement in filler dispersivity after treatment. �2008 IEEE. Final 2023-12-29T07:57:07Z 2023-12-29T07:57:07Z 2008 Conference paper 10.1109/SMELEC.2008.4770385 2-s2.0-65949085355 https://www.scopus.com/inward/record.uri?eid=2-s2.0-65949085355&doi=10.1109%2fSMELEC.2008.4770385&partnerID=40&md5=43ebfca4def82f625b3d8fb52d4eef5f https://irepository.uniten.edu.my/handle/123456789/30977 4770385 549 553 Scopus |
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Brazing Chip scale packages Composite micromechanics Cost reduction Coupling agents Electric conductivity Electric network analysis Epoxy resins Lead Processing Silanes Silver Surface treatment Welding After-treatment Binder matrix Conductive fillers Current conductivity Dispersivity Electrical conductivity Electrical property Electrically conductive adhesives Electronic Packaging Environmental friendliness Epoxy systems Filler loading Fine-pitch capability Interconnect materials Lead solders Light microscopy Metal fillers Morphological study Processing costs Processing steps Processing temperature Silver nanoparticles Silver particles Fillers |
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Brazing Chip scale packages Composite micromechanics Cost reduction Coupling agents Electric conductivity Electric network analysis Epoxy resins Lead Processing Silanes Silver Surface treatment Welding After-treatment Binder matrix Conductive fillers Current conductivity Dispersivity Electrical conductivity Electrical property Electrically conductive adhesives Electronic Packaging Environmental friendliness Epoxy systems Filler loading Fine-pitch capability Interconnect materials Lead solders Light microscopy Metal fillers Morphological study Processing costs Processing steps Processing temperature Silver nanoparticles Silver particles Fillers Kornain Z. Amin N. Jalar A. Cheah A.Y. Ahmad I. Effect of treated silver nanoparticles to electrical conductivity improvement of electrically conductive adhesive (ECA) |
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Electrically conductive adhesive (ECA) is a popular alternative to replace lead solder interconnect material in most areas of electronic packaging. ECA mainly consists of an organic/polymeric binder matrix and metal filler. These composite materials provide both physical adhesion and electrical conductivity. Compared to the solder technology, ECA offers numerous advantages, such as environmental friendliness, lower processing temperature, fewer processing steps (reducing processing cost), and especially, the fine pitch capability attributed to the availability of small sized conductive fillers. Here, 70-nm sized silver particle filler (Ag) has been used to study the effect to electrical conductivity of ECA after surface treatment. Upon surface treatment of silver with silane-based coupling agent, the treated silver filled epoxy system demonstrated incredible improvement in electrical properties. The current conductivity (DC) for treated filler was 4.01 S/cm compared with untreated filler with 4.54E-03 S/cm for 5%w filler loading. Morphological studies using light microscopy micrographs have shown perceptible enhancement in filler dispersivity after treatment. �2008 IEEE. |
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24341024000 |
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24341024000 Kornain Z. Amin N. Jalar A. Cheah A.Y. Ahmad I. |
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Conference paper |
author |
Kornain Z. Amin N. Jalar A. Cheah A.Y. Ahmad I. |
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Kornain Z. |
title |
Effect of treated silver nanoparticles to electrical conductivity improvement of electrically conductive adhesive (ECA) |
title_short |
Effect of treated silver nanoparticles to electrical conductivity improvement of electrically conductive adhesive (ECA) |
title_full |
Effect of treated silver nanoparticles to electrical conductivity improvement of electrically conductive adhesive (ECA) |
title_fullStr |
Effect of treated silver nanoparticles to electrical conductivity improvement of electrically conductive adhesive (ECA) |
title_full_unstemmed |
Effect of treated silver nanoparticles to electrical conductivity improvement of electrically conductive adhesive (ECA) |
title_sort |
effect of treated silver nanoparticles to electrical conductivity improvement of electrically conductive adhesive (eca) |
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2023 |
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1806423433429385216 |