Magnetic properties and cation ordering of nanopowders of the synthetic analogue of kuramite, CuSnS.

n extensive characterisation of the magnetic properties of synthetic powders of kuramite, with formal composition CuSnS, was performed. Powders were investigated through superconducting quantum interference device (SQUID) magnetometry, electron paramagnetic resonance (EPR) spectroscopy, X-ray powder diffraction (XRPD), scanning and transmission electron microscopies (SEM and TEM) and microanalysis. SEM and TEM reveal the presence of nanodimensioned particles. XRPD clearly shows that CuSnS crystallised in a cubic sphalerite-type structural model, in spite of the stannite-type tetragonal structure described for the natural phase. This difference arises from a full random distribution of cations. Synthetic kuramite nanopowders exhibit a marked paramagnetism, originated by the presence of Cu(II), definitely assessed by EPR measurements. Moreover, the overall magnetic behaviour of the sample cannot be simply ascribed to diluted paramagnetism, and this suggests the presence of strong superexchange interactions among Cu(II) ions even at room temperature. The main consequences of these results are the definitive assessment of the chemical formula Cu(I)Cu(II)SnS and of a random distribution of Cu(II), Cu(I) and Sn(IV) ions within the available tetrahedral sites. [ABSTRACT FROM AUTHOR]