In this study, the Ni diffusion barrier characteristics of a relatively hig
h-speed (> 8 mA/cm(2)) gold deposit electroplated upon electrodeposited Ni
in an in-line, conveyorized system were correlated with the Au layer's micr
ostructural characteristics, including surface morphology, texture (preferr
ed orientation), crystallite size, and microstrain. Depositing the Au upon
a Ni surface which had been recrystallized by heat-treatment (sintering) ac
hieved, in the as-plated condition, the microstructural features important
to good diffusion barrier performance (large grain/crystallite size, lower
defect density). If deposited on heat-treated Ni, the Au deposit contained
relatively large grains and had a slightly preferred [111] orientation. It
was a better Ni diffusion barrier than the finergrained Au deposited on uns
intered Ni. The latter Au deposit had a slightly preferred [100] orientatio
n. In addition to larger grain size, the Au deposited on sintered Ni contai
ned larger crystallites or sub-grains and a lower degree of nonuniform micr
ostrain. The lower density of grain boundaries and defects limited the exte
nt of Ni diffusion to, and oxidation on, the gold surface during heat testi
ng in air at 450 degrees C for 5 min. Annealing the Au deposited on an unsi
ntered Ni surface at 335 degrees C slightly improved the diffusion barrier
performance by increasing crystallite size and apparently reducing defect d
ensity. Further improvement was obtained using a 450 degrees C anneal. Diff
usion that occurred during annealing, however, limited the extent to which
annealing improved the performance.