R2Sn3 (R = La – Nd, Sm): A Family of Intermetallic Compounds with their Own Triclinic Structure

Abstract

A new family of intermetallic compounds with stoichiometry R2Sn3 has been identified in the R-Sn system for R = La, Ce, Pr, Nd and Sm. All compounds have a new triclinic crystal structure: P1̄, a = 6.378(1), b = 8.422(1), c = 11.098(1) Å , α = 107.37(1)◦, β = 96.78(1)◦, γ = 100.03(1)◦ for Nd2Sn3. As a characteristic motif, the structure contains infinite chains of neodymium trigonal prisms centred by tin and sharing alternately a lateral face and an edge of a triangular face. Heat capacity measurements reveal that the compounds with R = Ce, Pr, Nd and Sm order magnetically and undergo multiple magnetic transitions; from entropy considerations it appears that the four symmetry in-equivalent Ce atoms in Ce2Sn3 and the Sm atoms in Sm2Sn3 are all in the trivalent state. The highest transition temperature of nearly 24 K is observed for Sm2Sn3. The magnetisation and heat capacity data of La2Sn3 indicate a superconducting transition with a Tc of about 2.5 K.