Ethylene glycol-based Ag plating for the wet chemical fabrication of one micrometer Cu/Ag core/shell particles

Eun Byul Choi; Jong Hyun Lee

doi:10.1016/j.jallcom.2014.11.111

Ethylene glycol-based Ag plating for the wet chemical fabrication of one micrometer Cu/Ag core/shell particles

Eun Byul Choi
, Jong Hyun Lee

Dept. of Materials Science & Engineering

Seoul National University of Science and Technology (SNUST)

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

With the aim of preparing an inexpensive metal filler that can be added to conductive adhesives used in fine-pitch electronic applications, a polyol solution was used to fabricate Ag-coated Cu (CuAg) particles with a size on the order of one micron without the need for additional reagents. The continuity, uniformity, and thickness of the Ag shell were found to be strongly dependent on the plating conditions, particularly the reaction temperature. The Ag shell prepared at a peak temperature of 180 °C from a precursor with an initial Ag concentration of 15 wt.% was judged to be an optimum one. This same sample also showed an excellent oxidation initiation temperature of approximately 280 °C. It was inferred that the oxidation resistance of the CuAg powder is largely determined by the continuity, uniformity and thickness of the Ag shell.

Original language	English
Pages (from-to)	S231-S235
Journal	Journal of Alloys and Compounds
Volume	643
Issue number	S1
DOIs	https://doi.org/10.1016/j.jallcom.2014.11.111
State	Published - 14 Jun 2015

Keywords

Ag shell
Chemical synthesis
Compositional fluctuations
Cu@Ag particle
Oxidation
Surface and interfaces

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10.1016/j.jallcom.2014.11.111

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title = "Ethylene glycol-based Ag plating for the wet chemical fabrication of one micrometer Cu/Ag core/shell particles",

abstract = "With the aim of preparing an inexpensive metal filler that can be added to conductive adhesives used in fine-pitch electronic applications, a polyol solution was used to fabricate Ag-coated Cu (CuAg) particles with a size on the order of one micron without the need for additional reagents. The continuity, uniformity, and thickness of the Ag shell were found to be strongly dependent on the plating conditions, particularly the reaction temperature. The Ag shell prepared at a peak temperature of 180 °C from a precursor with an initial Ag concentration of 15 wt.\% was judged to be an optimum one. This same sample also showed an excellent oxidation initiation temperature of approximately 280 °C. It was inferred that the oxidation resistance of the CuAg powder is largely determined by the continuity, uniformity and thickness of the Ag shell.",

keywords = "Ag shell, Chemical synthesis, Compositional fluctuations, Cu@Ag particle, Oxidation, Surface and interfaces",

author = "Choi, \{Eun Byul\} and Lee, \{Jong Hyun\}",

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T1 - Ethylene glycol-based Ag plating for the wet chemical fabrication of one micrometer Cu/Ag core/shell particles

AU - Choi, Eun Byul

AU - Lee, Jong Hyun

PY - 2015/6/14

Y1 - 2015/6/14

N2 - With the aim of preparing an inexpensive metal filler that can be added to conductive adhesives used in fine-pitch electronic applications, a polyol solution was used to fabricate Ag-coated Cu (CuAg) particles with a size on the order of one micron without the need for additional reagents. The continuity, uniformity, and thickness of the Ag shell were found to be strongly dependent on the plating conditions, particularly the reaction temperature. The Ag shell prepared at a peak temperature of 180 °C from a precursor with an initial Ag concentration of 15 wt.% was judged to be an optimum one. This same sample also showed an excellent oxidation initiation temperature of approximately 280 °C. It was inferred that the oxidation resistance of the CuAg powder is largely determined by the continuity, uniformity and thickness of the Ag shell.

AB - With the aim of preparing an inexpensive metal filler that can be added to conductive adhesives used in fine-pitch electronic applications, a polyol solution was used to fabricate Ag-coated Cu (CuAg) particles with a size on the order of one micron without the need for additional reagents. The continuity, uniformity, and thickness of the Ag shell were found to be strongly dependent on the plating conditions, particularly the reaction temperature. The Ag shell prepared at a peak temperature of 180 °C from a precursor with an initial Ag concentration of 15 wt.% was judged to be an optimum one. This same sample also showed an excellent oxidation initiation temperature of approximately 280 °C. It was inferred that the oxidation resistance of the CuAg powder is largely determined by the continuity, uniformity and thickness of the Ag shell.

KW - Ag shell

KW - Chemical synthesis

KW - Compositional fluctuations

KW - Cu@Ag particle

KW - Oxidation

KW - Surface and interfaces

UR - https://www.scopus.com/pages/publications/84931259797

U2 - 10.1016/j.jallcom.2014.11.111

DO - 10.1016/j.jallcom.2014.11.111

M3 - Article

AN - SCOPUS:84931259797

SN - 0925-8388

VL - 643

SP - S231-S235

JO - Journal of Alloys and Compounds

JF - Journal of Alloys and Compounds

IS - S1

ER -

Ethylene glycol-based Ag plating for the wet chemical fabrication of one micrometer Cu/Ag core/shell particles

Abstract

Keywords

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