Crystal Structure and Magnetic Ordering Transitions in CeNiIn4, EuNiIn4 and EuCuIn4

Polycrystalline CeNiIn₄ was prepared by arc-melting of the elements and subsequent annealing at 970 K in vacuum. EuNiIn₄ and EuCuIn₄ were synthesized from the elements by reactions in sealed tantalum tubes. These indium-rich compounds crystallize with the YNiAl₄-type structure which was refined for EuCuIn₄ from single-crystal X-ray diffraction data: Cmcm, a = 450.04(9), b = 1698.7(4), c = 740.2(2) pm, wR2 = 0.0606, 495 F² values, 24 variables. The EuCuIn₄ structure is built up from a complex three-dimensional [CuIn₄] polyanion (265–279pm Cu–In and 296–331pm In–In) in which the europium atoms occupy distorted hexagonal channels. The Eu–Eu distances within these channels (450 pm) are significantly shorter than the distances between Eu atoms in neighboring channels (552 pm). The magnetic properties and the specific heats of the europium compounds have been investigated. Both europium compounds show the magnetism of divalent Eu ions and antiferromagnetic ordering at low temperatures. EuCuIn₄ is magnetically ordered via a surprisingly complex sequence of three transitions.