posted on 2023-02-22, 14:41authored byFenghua Ding, Kent J. Griffith, Weiguo Zhang, Shaoxin Cui, Chi Zhang, Yiran Wang, Kendall Kamp, Hongwei Yu, P. Shiv Halasyamani, Zhihua Yang, Shilie Pan, Kenneth R. Poeppelmeier
Noncentrosymmetric (NCS) structures
are of particular interest
owing to their symmetry-dependent physical properties, e.g., pyroelectricity,
ferroelectricity, piezoelectricity, and nonlinear optical (NLO) behavior.
Among them, chiral materials exhibit polarization rotation and host
topological properties. Borates often contribute to NCS and chiral
structures via their triangular [BO3] and tetrahedral [BO4] units and their numerous superstructure motifs. However,
no chiral compound with the linear [BO2] unit has been
reported to date. Herein, an NCS and chiral mixed-alkali-metal borate,
NaRb6(B4O5(OH)4)3(BO2), with a linear BO2– unit in the structure was synthesized and characterized. The structure
features a combination of three types of basic building units (BBUs),
[BO2], [BO3], and [BO4] with sp-,
sp2-, and sp3-hybridization of boron atoms,
respectively. It crystallizes in the trigonal space group R32 (No. 155), one of the 65 Sohncke space groups. Two enantiomers
of NaRb6(B4O5(OH)4)3(BO2) were found, and their crystallographic relationships
are discussed. These results not only expand the small family of NCS
structures with the rare linear BO2– unit
but also prompt recognition to the fact that NLO materials have generally
overlooked the existence of two enantiomers in achiral Sohncke space
groups.