Abstract
Cuprates show an intimate interplay between the crystal structure and their magnetism, particularly with respect to frustration and dimensionality. On the other hand, it is a widespread belief that crystal water has just a moderate and quantitative influence to the magnetic properties of these compounds caused by the modification of interatomic distances. In contrast, the hydration of CuCl2 leads to a dramatic change in magnetic behaviour and ground state. While CuCl2·2H2O is a classic example for a three-dimensional antiferromagnet (TN 4.3 K) [1] with small exchange couplings, CuCl2 is a quasi-one dimensional chain compound that exhibits long-range order at T 24 K [2].
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More From: Zeitschrift für anorganische und allgemeine Chemie
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