We report on specific heat and resistivity results on YbInNi4-xCux with 0 l
ess than or equal to x less than or equal to 4. The magnetic resistivity fo
r x less than or equal to 1 presents two temperature regions with a - In T
dependence due to the crystal field (CF) and show that the splitting of the
first excited state increases with the Cu concentration. The specific heat
results are in agreement with resistivity and lead to the evaluation of cr
ystal field splitting for the first and second excited states. The energy l
evel scheme remains unaltered when Cu replaces Ni. The unit cell volume inc
reases linearly with x, but the Kondo temperature obtained from the specifi
c heat does not change monotonically as expected for the whole series. (C)
2001 Elsevier Science B.V. All rights reserved.