An Exceptional Peroxide Birefringent Material Resulting from d–π Interactions
Shuai Liu, Xiaomeng Liu, Sangen Zhao, Youchao Liu, Lina Li, Qingran Ding, Yanqiang Li, Zheshuai Lin, Junhua Luo, Maochun Hong
Abstract
Abstract Birefringent materials, which can modulate the polarization of light, are almost exclusively limited to oxides. Peroxides have long been overlooked as birefringent materials, because they are usually not stable in air. Now, the first peroxide birefringent material Rb 2 VO(O 2 ) 2 F is reported, the single crystals of which keep transparency after being exposed in the air for two weeks. Interestingly, Rb 2 VO(O 2 ) 2 F does not feature an optimal anisotropic structure, but its birefringence (Δn=0.189 at 546 nm) exceeds those of the majority of oxides. According to the first‐principles calculations, this exceptional birefringence should be attributed to the strong electronic interactions between localized π orbital of O 2 2− anions and V 5+ 3d orbitals, which may be also favorable to the stability in the air for Rb 2 VO(O 2 ) 2 F. These findings distinguish peroxides as a brand‐new class of birefringent materials that may possess birefringence superior to the traditional oxides.