Tuning of magnetic frustration in S=1/2 Kagom\'e lattices [Cu3(CO3)2(bpe)3](ClO4)2n and [Cu3(CO3)2(bpy)3](ClO4)2n through rigid and flexible ligands

Abstract

Single crystalline and polycrystalline samples of S=1/2 Kagom\'e lattices [Cu3(CO3)2(bpe)3](ClO4)2n and [Cu3(CO3)2(bpy)3](ClO4)2n, respectively were synthesized. Their structural and magnetic properties were characterized by means of x-ray diffraction and magnetization measurements. Both compounds crystalize in a hexagonal structure (space group P-6) consisting of CuO4 Kagom\'e layers in the ab-plane but linked along c direction through either rigid bpy or flexible bpe ligands to form 3D frame works. Magnetic measurements reveal that both the compounds undergo ferromagnetic ordering (T C) at low temperatures and the T C and the extent of frustration could be tuned by changing the nature of the pillar ligands. [Cu3(CO3)2(bpe)3](ClO4)2n which is made up of flexible bpe ligands has a T C of 5.7 K and a Curie-Weiss temperature (θ CW) of -39.7 K giving rise to a frustration parameter of |θ CW|T C 6.96. But the replacement of bpe by a more rigid and electronically delocalized bpy ligand leads to an enhanced T C 9.3 K and a reduced frustration parameter of |θ CW|T C 3.54.