Thermochemical Mechanism of the Epoxy-Glutamic Acid Reaction with Sn-3.0 Ag-0.5 Cu Solder Powder for Electrical Joining

Thermochemical Mechanism of the Epoxy-Glutamic Acid Reaction with Sn-3.0 Ag-0.5 Cu Solder Powder for Electrical Joining

An epoxy-based solder paste (ESP) is a promising alternative to conventional solder pastes to improve the reliability of fine-pitch electrical joining because the epoxy encapsulates the solder joint. However, development of an appropriate epoxy formulation and investigation of its reaction mechanism...

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Main Authors: Gwang-Mun Choi, Ki-Seok Jang, Kwang-Seong Choi, Jiho Joo, Ho-Gyeong Yun, Chanmi Lee, Yong-Sung Eom
Format: Article
Language:English
Published: MDPI AG 2021-03-01
Series:Polymers
Subjects:
epoxy-based solder paste
l-glutamic acid
tin carboxylate salt
etherification
electrical joining
Online Access:https://www.mdpi.com/2073-4360/13/6/957
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spelling doaj-c9e6c771182a43b7aa470eac88ba16492021-03-21T00:02:56ZengMDPI AGPolymers2073-43602021-03-011395795710.3390/polym13060957Thermochemical Mechanism of the Epoxy-Glutamic Acid Reaction with Sn-3.0 Ag-0.5 Cu Solder Powder for Electrical JoiningGwang-Mun Choi0Ki-Seok Jang1Kwang-Seong Choi2Jiho Joo3Ho-Gyeong Yun4Chanmi Lee5Yong-Sung Eom6ICT Creative Research Laboratory/Materials & Components Research Division/Emerging Materials Research Section at Electronics and Telecommunications Research Institute (ETRI), 218 Gajeong-ro, Yuseong-gu, Daejeon 34129, KoreaICT Creative Research Laboratory/Materials & Components Research Division/Emerging Materials Research Section at Electronics and Telecommunications Research Institute (ETRI), 218 Gajeong-ro, Yuseong-gu, Daejeon 34129, KoreaICT Creative Research Laboratory/Materials & Components Research Division/Emerging Materials Research Section at Electronics and Telecommunications Research Institute (ETRI), 218 Gajeong-ro, Yuseong-gu, Daejeon 34129, KoreaICT Creative Research Laboratory/Materials & Components Research Division/Emerging Materials Research Section at Electronics and Telecommunications Research Institute (ETRI), 218 Gajeong-ro, Yuseong-gu, Daejeon 34129, KoreaICT Creative Research Laboratory/Materials & Components Research Division/Emerging Materials Research Section at Electronics and Telecommunications Research Institute (ETRI), 218 Gajeong-ro, Yuseong-gu, Daejeon 34129, KoreaICT Creative Research Laboratory/Materials & Components Research Division/Emerging Materials Research Section at Electronics and Telecommunications Research Institute (ETRI), 218 Gajeong-ro, Yuseong-gu, Daejeon 34129, KoreaICT Creative Research Laboratory/Materials & Components Research Division/Emerging Materials Research Section at Electronics and Telecommunications Research Institute (ETRI), 218 Gajeong-ro, Yuseong-gu, Daejeon 34129, KoreaAn epoxy-based solder paste (ESP) is a promising alternative to conventional solder pastes to improve the reliability of fine-pitch electrical joining because the epoxy encapsulates the solder joint. However, development of an appropriate epoxy formulation and investigation of its reaction mechanism with solder powder is challenging. In this study, we demonstrate a newly designed ESP consisting of diglycidyl ether of bisphenol F (DGEBF) resin, Sn-3.0 Ag-0.5 Cu (SAC305) solder powder, and L-glutamic acid (Glu), which is a proteinogenic amino acid for biosynthesis of proteins in living systems. The mechanism of the thermochemical reaction was explored and tentatively proposed, which reveals that the products of the reaction between SAC305 and Glu function as catalysts for the etherification of epoxides and alcohols produced by chemical bonding between DGEBF and Glu, consequently leading to highly crosslinked polymeric networks and an enhancement of impact resistance. Our findings provide further insight into the mechanism of the reaction between various formulations comprising an epoxy, amino acid, and solder powder, and their potential use as ESPs for electrical joining.https://www.mdpi.com/2073-4360/13/6/957epoxy-based solder pastel-glutamic acidtin carboxylate saltetherificationelectrical joining
collection DOAJ
language English
format Article
sources DOAJ
author Gwang-Mun Choi
Ki-Seok Jang
Kwang-Seong Choi
Jiho Joo
Ho-Gyeong Yun
Chanmi Lee
Yong-Sung Eom
spellingShingle Gwang-Mun Choi
Ki-Seok Jang
Kwang-Seong Choi
Jiho Joo
Ho-Gyeong Yun
Chanmi Lee
Yong-Sung Eom
Thermochemical Mechanism of the Epoxy-Glutamic Acid Reaction with Sn-3.0 Ag-0.5 Cu Solder Powder for Electrical Joining
Polymers
epoxy-based solder paste
l-glutamic acid
tin carboxylate salt
etherification
electrical joining
author_facet Gwang-Mun Choi
Ki-Seok Jang
Kwang-Seong Choi
Jiho Joo
Ho-Gyeong Yun
Chanmi Lee
Yong-Sung Eom
author_sort Gwang-Mun Choi
title Thermochemical Mechanism of the Epoxy-Glutamic Acid Reaction with Sn-3.0 Ag-0.5 Cu Solder Powder for Electrical Joining
title_short Thermochemical Mechanism of the Epoxy-Glutamic Acid Reaction with Sn-3.0 Ag-0.5 Cu Solder Powder for Electrical Joining
title_full Thermochemical Mechanism of the Epoxy-Glutamic Acid Reaction with Sn-3.0 Ag-0.5 Cu Solder Powder for Electrical Joining
title_fullStr Thermochemical Mechanism of the Epoxy-Glutamic Acid Reaction with Sn-3.0 Ag-0.5 Cu Solder Powder for Electrical Joining
title_full_unstemmed Thermochemical Mechanism of the Epoxy-Glutamic Acid Reaction with Sn-3.0 Ag-0.5 Cu Solder Powder for Electrical Joining
title_sort thermochemical mechanism of the epoxy-glutamic acid reaction with sn-3.0 ag-0.5 cu solder powder for electrical joining
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2021-03-01
description An epoxy-based solder paste (ESP) is a promising alternative to conventional solder pastes to improve the reliability of fine-pitch electrical joining because the epoxy encapsulates the solder joint. However, development of an appropriate epoxy formulation and investigation of its reaction mechanism with solder powder is challenging. In this study, we demonstrate a newly designed ESP consisting of diglycidyl ether of bisphenol F (DGEBF) resin, Sn-3.0 Ag-0.5 Cu (SAC305) solder powder, and L-glutamic acid (Glu), which is a proteinogenic amino acid for biosynthesis of proteins in living systems. The mechanism of the thermochemical reaction was explored and tentatively proposed, which reveals that the products of the reaction between SAC305 and Glu function as catalysts for the etherification of epoxides and alcohols produced by chemical bonding between DGEBF and Glu, consequently leading to highly crosslinked polymeric networks and an enhancement of impact resistance. Our findings provide further insight into the mechanism of the reaction between various formulations comprising an epoxy, amino acid, and solder powder, and their potential use as ESPs for electrical joining.
topic epoxy-based solder paste
l-glutamic acid
tin carboxylate salt
etherification
electrical joining
url https://www.mdpi.com/2073-4360/13/6/957
work_keys_str_mv AT gwangmunchoi thermochemicalmechanismoftheepoxyglutamicacidreactionwithsn30ag05cusolderpowderforelectricaljoining
AT kiseokjang thermochemicalmechanismoftheepoxyglutamicacidreactionwithsn30ag05cusolderpowderforelectricaljoining
AT kwangseongchoi thermochemicalmechanismoftheepoxyglutamicacidreactionwithsn30ag05cusolderpowderforelectricaljoining
AT jihojoo thermochemicalmechanismoftheepoxyglutamicacidreactionwithsn30ag05cusolderpowderforelectricaljoining
AT hogyeongyun thermochemicalmechanismoftheepoxyglutamicacidreactionwithsn30ag05cusolderpowderforelectricaljoining
AT chanmilee thermochemicalmechanismoftheepoxyglutamicacidreactionwithsn30ag05cusolderpowderforelectricaljoining
AT yongsungeom thermochemicalmechanismoftheepoxyglutamicacidreactionwithsn30ag05cusolderpowderforelectricaljoining
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