Cross-correlated experimental and theoretical characterisation of orpiment As2S3, a potential material for new advanced technological applications†

IF 2.6 3区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

CrystEngComm Pub Date : 2025-07-17 DOI:10.1039/D5CE00525F

Gianfranco Ulian, Francesca Ranellucci and Giovanni Valdrè

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Abstract

In the ever-growing search for new materials in optical, electronic and photovoltaic applications, chalcogenides, such as amorphous diarsenic trisulfide (As₂S₃), are being deeply investigated. However, very few and incomplete data are available on crystalline As₂S₃ (space group P2₁/n), known as mineral orpiment. In the present work, several experimental techniques were employed to analyse the crystal structure, morphology, chemical composition and vibrational properties of the bulk and mechanically cleaved (010) orpiment surface. Also, cross-correlated atomic-scale ab initio simulations corroborated and explained the new experimental data. Orpiment showed a semiconducting behaviour, with an indirect band gap of 2.44 eV and an optical Γ–Γ gap of 2.63 eV, which agrees with previous optical-absorption edge measurements. Furthermore, the complete stiffness tensor and the phonon band structure were reported for the first time. All these quantities are of utmost importance for devising new possible applications of crystalline orpiment in the technological and materials science fields.

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orpiment As2S3的交叉相关实验和理论表征，一种潜在的新先进技术应用材料

在光学、电子和光伏应用领域不断增长的新材料研究中，硫族化合物，如无定形三硫化二砷（As2S3），正在被深入研究。然而，关于晶体As2S3（空间群P21/n）的数据很少且不完整，被称为矿物矿石。在本工作中，采用了几种实验技术来分析体积和机械切割（010）磨料表面的晶体结构、形貌、化学成分和振动特性。此外，交叉相关的原子尺度从头算模拟证实并解释了新的实验数据。Orpiment表现出半导体特性，其间接带隙为2.44 eV，光学带隙为2.63 eV，这与之前的光吸收边测量结果一致。此外，还首次报道了完整的刚度张量和声子带结构。所有这些量对于在技术和材料科学领域设计晶态硅的新可能应用具有至关重要的意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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