Tailorable deposition of Sn Ni alloy from a pyrophosphate bath with an adjustable Sn:Ni molar ratio

“…Electrodeposited Tin-nickel alloys are widely used in the metal finishing industry and microelectronics due to their attractive features, such as bright appearance and corrosion resistance [8,9]. In particular, since they are non-allergic to the skin, they can replace nickel electrocoating on fasteners for garments.…”

Electrodeposition of Photocatalytic Sn–Ni Matrix Composite Coatings Embedded with Doped TiO2 Particles

“…Electrodeposited Tin-nickel alloys are widely used in the metal finishing industry and microelectronics due to their attractive features, such as bright appearance and corrosion resistance [8,9]. In particular, since they are non-allergic to the skin, they can replace nickel electrocoating on fasteners for garments.…”

Electrodeposition of Photocatalytic Sn–Ni Matrix Composite Coatings Embedded with Doped TiO2 Particles

“…However, the MOR performance of Ni-Sn compounds in acidic media has not been reported yet. Considering the potential applications in DMFCs, it is highly worthwhile to explore the MOR performance of Ni-Sn alloys with appropriate Ni ratios in acidic conditions, given their commendable corrosion resistance 17,18 . This journal is © The Royal Society of Chemistry 20xx…”

“…Considering the potential applications in DMFCs, it is highly worthwhile to explore the MOR performance of Ni-Sn alloys with appropriate Ni ratios in acidic conditions, given their commendable corrosion resistance. 17,18 In this work, we synthetized Ni 3 Sn 4 and employed a combination of experimental and theoretical techniques to investigate its electrocatalytic properties toward MOR in acid environments. Our findings reveal the exceptional performance of Ni 3 Sn 4 , including its high MOR activity, stability, and superior CO tolerance, making it a promising candidate for use in DMFCs.…”

“…Considering the potential applications in DMFCs, it is highly worthwhile to explore the MOR performance of Ni–Sn alloys with appropriate Ni ratios in acidic conditions, given their commendable corrosion resistance. 17,18…”

Cost-effective, high-performance Ni₃Sn₄ electrocatalysts for methanol oxidation reaction in acidic environments

Understanding the non-monotonic variation in the corrosion rate of Sn-Ni coatings with Ni addition by the analysis of texture and grain boundary constitution of the matrix phase and spatial distribution of the intermetallic phase in the coating microstructure.