Add to ORKGThe control of the interfacial reaction rate is of great importance for liquid solder interconnects for high temperature electronic assemblies. Conventional electroless Ni-P barrier metallizations have been found to be inadequate for providing long term protection of the underlying metallization from the attack of molten solders. In this paper, binary Ni-P was modified with the co-deposition of a refractory alloying element, tungsten (W), from its soluble metal salt added to the plating bath. Critical parameters for the deposition of ternary Ni-W-P were identified. The long term reaction between Ni-W-P and molten Sn-Bi solder at 200 degC was studied. The results indicated that Ni-W-P barrier coatings with higher W contents have much longer ...
Nickel based alloys are currently being investigated in an effort to develop stable barrier films be...
To address the reliability challenges brought by the accelerated reaction with the implementation of...
In the present study electroless Ni-Sn-P (6-7 wt.% P and 19-21 wt.% Sn) coating was prepared on copp...
This paper reports on the interfacial reactions and lifetime of electroless Ni-P coatings in contact...
To address the potential reliability challenges brought by the accelerated reaction with the adoptio...
The operating temperature of high-temperature electronics can significantly promote the growth of in...
The stability of Ni3P and its effect on the reaction with molten tin were evaluated in the present s...
(Ni-P and Ni-W-P) were developed as the soldering metallization in this work to solve the potential ...
A comparative study of the reaction characteristics between molten tin and both as-plated and heat-t...
Due to environmental concerns, the electronics industry is actively shifting from lead solders to l...
The voids formed in the Ni3P layer during reaction between Sn-based solders and electroless Ni–P met...
Liquid solder interconnects are promising as an alternative approach to conventional high melting po...
© 2017 IEEE. The elevated working temperature of high temperature electronics can inevitably cause p...
Electroless Ni-P plating has been a good candidate for Under Bump Metallization (UBM) in IC packagin...
[[abstract]]Electroless Ni-P (EN) has been popularly adopted and used as a diffusion barrier in the ...
Nickel based alloys are currently being investigated in an effort to develop stable barrier films be...
To address the reliability challenges brought by the accelerated reaction with the implementation of...
In the present study electroless Ni-Sn-P (6-7 wt.% P and 19-21 wt.% Sn) coating was prepared on copp...
This paper reports on the interfacial reactions and lifetime of electroless Ni-P coatings in contact...
To address the potential reliability challenges brought by the accelerated reaction with the adoptio...
The operating temperature of high-temperature electronics can significantly promote the growth of in...
The stability of Ni3P and its effect on the reaction with molten tin were evaluated in the present s...
(Ni-P and Ni-W-P) were developed as the soldering metallization in this work to solve the potential ...
A comparative study of the reaction characteristics between molten tin and both as-plated and heat-t...
Due to environmental concerns, the electronics industry is actively shifting from lead solders to l...
The voids formed in the Ni3P layer during reaction between Sn-based solders and electroless Ni–P met...
Liquid solder interconnects are promising as an alternative approach to conventional high melting po...
© 2017 IEEE. The elevated working temperature of high temperature electronics can inevitably cause p...
Electroless Ni-P plating has been a good candidate for Under Bump Metallization (UBM) in IC packagin...
[[abstract]]Electroless Ni-P (EN) has been popularly adopted and used as a diffusion barrier in the ...
Nickel based alloys are currently being investigated in an effort to develop stable barrier films be...
To address the reliability challenges brought by the accelerated reaction with the implementation of...
In the present study electroless Ni-Sn-P (6-7 wt.% P and 19-21 wt.% Sn) coating was prepared on copp...