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Na[B<sub>3</sub>IO<sub>7</sub>(OH)] and Na<sub>2</sub>[B<sub>4</sub>IO<sub>9</sub>](IO<sub>3</sub>): Explorations of Boroiodates with Strong Second Harmonic Generation Response and Large Birefringence

Ya-Lan Deng, Chun‐Li Hu, Xiang Xu, Mingzhi Zhang, Jiang‐Gao Mao

2025Journal of the American Chemical Society44 citationsDOI

Abstract

In the exploration of nonlinear optical (NLO) materials, developing new functional groups for high performance is essential. Achieving a balance among band gap, second harmonic generation (SHG), and birefringence within a compound is quite challenging. By directly connecting iodates and borates by B–O–I bridges, two boroiodates with novel [B 3 IO 8 (OH)] 3– and [B 4 IO 11 ] 5– anionic functional groups, namely, Na[B 3 IO 7 (OH)] ( NBIO-I ) and Na 2 [B 4 IO 9 ](IO 3 ) ( NBIO-II ), were successfully synthesized for the first time through the boric acid melting method under different molar ratios of H 3 BO 3 /NaIO 3 . NBIO-I ( Pbca ) features a unique 1D ∞ 1 [B 3 IO 7 (OH)] − chain composed of corner-sharing [B 3 O 6 (OH)] 4– groups with [IO 3 ] − groups hanging on both sides of the chain. In contrast, NBIO-II ( Cc ) displays a novel 2D layer of ∞ 2 [B 4 IO 9 ] −, in which all of the [IO 3 ] − groups are hanging on the same side of the ∞ 2 [B 4 O 7 ] 2– layer formed by corner-sharing [B 3 O 7 ] 5– and [BO 3 ] 3– groups. Remarkably, NBIO-II exhibits a wide band gap (4.3 eV), large birefringence (0.298@546 nm), and strongest SHG response (7.8 × KDP) among borate-iodates reported previously. This work not only discovered NBIO-II as promising NLO crystals but also provided an effective synthetic route for new boroiodates with excellent optical properties.

Topics & Concepts

ChemistryCrystal Structures and PropertiesLuminescence Properties of Advanced MaterialsSolid-state spectroscopy and crystallography