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Chemical Science

From NaSc3Ga2Q8 (Q = S, Se) to KGa2In3S8: Substitution of Sc3+ with In3+ to Achieve Doubled Birefringence

Yun Xie,   Wen-Dong Yao,   Qiu-Yang Du,   Wenfeng Zhou,   Nian-Tzu Suen,   Wen-Long Liu  and  Sheng-Ping Guo  

Abstract

The exploration of novel compounds with new crystal and electronic structures is essential for advancing the development of functional materials. Here, three novel isomorphic quaternary alkali-metal chalcogenides AM5Q8 (A = Na, K; M = Sc, Ga and In; Q = S, Se) with a new structure type have been obtained by the facile reactive flux assisted boron-chalcogen solid-state method, which adopt a 3D {[M5Q8]}∞ open-framework architecture with A+ ions occupying the cavities to balance charges. Subtle modulation of the M−Q bonds induces a twofold enhancement in optical birefringence (Δn), observed from NaSc3Ga2Q8 (Q = S, Δn = 0.050@532 nm; Q = Se, Δn = 0.088@532 nm) to KGa2In3S8 (Δn = 0.134@532 nm). Their optical band gaps are 2.21−3.10 eV. The theoretical calculation results reveal that the replacement of Sc with In enhances the orbital hybridization between cations and anions, amplifies microscopic polarizability anisotropy and consequently doubles the birefringence. In addition, KGa2In3S8 exhibits the photocurrent density of ~30 nA/cm2. This work brings novel insights for improving the birefringence performance of materials.

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Article information

DOI
https://doi.org/10.1039/D5SC03501E
Article type
Edge Article
Submitted
15 May 2025
Accepted
14 Aug 2025
First published
15 Aug 2025
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2025, Accepted Manuscript

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From NaSc3Ga2Q8 (Q = S, Se) to KGa2In3S8: Substitution of Sc3+ with In3+ to Achieve Doubled Birefringence

Y. Xie, W. Yao, Q. Du, W. Zhou, N. Suen, W. Liu and S. Guo, Chem. Sci., 2025, Accepted Manuscript , DOI: 10.1039/D5SC03501E

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