From BaAlBOF to BaAlBOF and BaAl(BO)F: the enhancement of birefringence and band gap by extending the π-conjugated system combined with [Al-O/F] functional groups

The investigation of birefringent materials is predominantly focused on π-conjugated systems; however, a large band gap or deep ultraviolet (DUV) transmittance cannot be guaranteed. In this work, we propose an extended π-conjugated strategy to increase the birefringence while keeping the large band gap. In the scheme, two new fluoroaluminoborates, BaAlB 3 O 6 F 2 and BaAl 2 (B 3 O 6 ) 2 F 2 , are synthesized by combining the [BO 3 ] group with the [AlO 4 F 2 ] group and the [B 3 O 6 ] group with the [AlO 3 F] group through a rational structural design. The experimental results indicate that both BaAlB 3 O 6 F 2 and BaAl 2 (B 3 O 6 ) 2 F 2 exhibit shorter UV cutoff wavelengths ( 0.07@546 nm). Notably, this is a new finding in the Ba-Al-B-O-F system since the discovery of the well-known nonlinear optical crystal BaAlBO 3 F 2 . In comparison with BaAlBO 3 F 2 , BaAlB 3 O 6 F 2 and BaAl 2 (B 3 O 6 ) 2 F 2 exhibit a markedly elevated birefringence (0.0418 vs. 0.087/0.105 at 546 nm). Furthermore, BaAl 2 (B 3 O 6 ) 2 F 2 exhibits the largest band gap (7.87 eV) of all known F-containing aluminoborates. This work not only identifies two potential DUV birefringent materials, but also proposes a novel design approach for reconciling the conflicting properties between birefringence and bandgap. Two new fluoroaluminoborates, BaAlB 3 O 6 F 2 and BaAl 2 (B 3 O 6 ) 2 F 2 , were designed and synthesized, exhibiting a markedly elevated birefringence in comparison with BaAlBO 3 F 2 .