Improved understanding of the enhancement of sintering of mixtures of Cu microparticles and sn nanoparticles for electronic packaging

“…Cupric oxides have a higher melting point and resistivity than pure Cu, which hinders the formation of sintering necks between Cu particles, resulting in poor sintering properties and low conductivity [8][9][10]. The method of fabricating Cu nanoparticles with strong oxidation resistance has become a crucial question for their application in electronics manufacturing [11][12][13].…”

“…Inorganic coating treatments use inorganic elements, such as silver [19,20], phosphorus [21], and tin [13], to form a compact protective film on the Cu particles. For example, in a study by Dai et al, cupric formate was heated to 170 • C in an oleylamine solution and was decomposed to form Cu nanoparticles [22].…”

Synthesis of Imidazole-Compound-Coated Copper Nanoparticles with Promising Antioxidant and Sintering Properties

“…Cupric oxides have a higher melting point and resistivity than pure Cu, which hinders the formation of sintering necks between Cu particles, resulting in poor sintering properties and low conductivity [8][9][10]. The method of fabricating Cu nanoparticles with strong oxidation resistance has become a crucial question for their application in electronics manufacturing [11][12][13].…”

“…Inorganic coating treatments use inorganic elements, such as silver [19,20], phosphorus [21], and tin [13], to form a compact protective film on the Cu particles. For example, in a study by Dai et al, cupric formate was heated to 170 • C in an oleylamine solution and was decomposed to form Cu nanoparticles [22].…”

Synthesis of Imidazole-Compound-Coated Copper Nanoparticles with Promising Antioxidant and Sintering Properties

Effect of Different Proportions and Powder Sizes of Sn on The Performance of Cu-Sn TLPB Joints