Centrosymmetric Rb₂Sb(C₂O₄)_2.5(H₂O)₃ and Noncentrosymmetric RbSb₂(C₂O₄)F₅: Two Antimony (III) Oxalates as UV Optical Materials

Abstract

Herein, we have successfully synthesized two rubidium antimony (III) oxalates, namely, Rb2Sb­(C2O4)2.5(H2O)3 and RbSb2(C2O4)­F5, utilizing a low-temperature hydrothermal method. These two compounds share a similar chemical composition, consisting of Sb3+ cations with active lone pair electrons, alkali metal Rb+ ions, and planar π-conjugated C2O42– anions. However, they exhibit different symmetries, Rb2Sb­(C2O4)2.5(H2O)3 is centrosymmetric (CS), while RbSb2(C2O4)­F5 is noncentrosymmetric (NCS), which should be caused by the presence of F– ions. Notably, the NCS compound, RbSb2(C2O4)­F5, demonstrates a moderate second-harmonic generation (SHG) response, approximately 1.3 times that of KH2PO4 (KDP), and exhibits a large birefringence of 0.09 at 546 nm. These characteristics indicate that RbSb2(C2O4)­F5 holds promising potential as a nonlinear optical material for ultraviolet (UV) applications. Detailed structural analysis and theoretical calculations confirm that the excellent optical properties arise from the synergistic effects between Sb3+ cations with SCALP and planar π-conjugated [C2O4]2– groups