Structural Properties, Thermodynamic Stability and Reaction Pathways for Solid--State Synthesis of Bi2WO6 Polymorphs

IF 3.5 3区 化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR Dalton Transactions Pub Date : 2024-11-15 DOI:10.1039/d4dt02931c
Thi Hien Doan, Linh P.T. Tran, Van Hai Pham, Huy Hoang Luc
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Abstract

This study presents a density functional theory (DFT) investigation into the structural, electronic, and optical properties, thermodynamic stability, phase competition, and reaction pathways of Bi2WO6, a notable compound within the Aurivillius family of oxides. We examine three distinct polymorphs of Bi2WO6: the low-temperature orthorhombic phase (P1), the intermediate-temperature orthorhombic phase (P2), and the high-temperature monoclinic phase (P3).} Electronic structure analysis indicates band gaps of 2.339 eV (P1), 2.312 eV (P2), and 2.128 eV (P3), with the valence band primarily composed of O 2p states and the conduction band of Bi 6p and W 5d states. Optical properties, including the dielectric function and absorption spectra, show distinct behaviors for each phase, particularly P3. Elastic and phonon property analyses confirm the mechanical and dynamical stability of all three phases, with the P1 phase exhibiting the highest bulk modulus and stiffness among the polymorphs. Our effective mass calculations suggest that the P3 phase may have better charge carrier mobility compared to the P1 and P2 phases. Structural optimizations reveal marginal differences in total energy among these phases, suggesting their potential coexistence or easy phase transitions under varying conditions. Detailed Gibbs free energy calculations confirm that the P1 phase is the most stable at low temperatures, in agreement with experimental data in the literature. We also construct a chemical reaction network to explore feasible reaction pathways for the solid--state synthesis of Bi2WO6 from Bi2O3 and WO3 precursors, identifying several low--cost reaction pathways, including both direct and multi--step routes involving intermediates such as Bi14WO24 and Bi2W2O9.
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固态合成 Bi2WO6 多晶体的结构特性、热力学稳定性和反应途径
本研究通过密度泛函理论(DFT)研究了 Bi2WO6 的结构、电子和光学特性、热力学稳定性、相竞争以及反应途径,Bi2WO6 是 Aurivillius 氧化物家族中的一种著名化合物。我们研究了 Bi2WO6 的三种不同多晶体:低温正菱形相(P1)、中温正菱形相(P2)和高温单斜相(P3)。电子结构分析表明带隙为 2.339 eV(P1)、2.312 eV(P2)和 2.128 eV(P3),价带主要由 O 2p 态组成,导带由 Bi 6p 和 W 5d 态组成。包括介电函数和吸收光谱在内的光学特性显示出每个相位的不同行为,尤其是 P3。弹性和声子特性分析证实了所有三相的机械和动力学稳定性,其中 P1 相在多晶体中表现出最高的体模量和刚度。我们的有效质量计算表明,与 P1 和 P2 相相比,P3 相可能具有更好的电荷载流子迁移率。结构优化显示,这些相之间的总能量存在微小差异,表明它们可能共存或在不同条件下容易发生相变。详细的吉布斯自由能计算证实,P1 相在低温下最为稳定,这与文献中的实验数据一致。我们还构建了一个化学反应网络,探索从 Bi2O3 和 WO3 前体固态合成 Bi2WO6 的可行反应途径,确定了几种低成本反应途径,包括涉及 Bi14WO24 和 Bi2W2O9 等中间体的直接和多步途径。
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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来源期刊
Dalton Transactions
Dalton Transactions 化学-无机化学与核化学
CiteScore
6.60
自引率
7.50%
发文量
1832
审稿时长
1.5 months
期刊介绍: Dalton Transactions is a journal for all areas of inorganic chemistry, which encompasses the organometallic, bioinorganic and materials chemistry of the elements, with applications including synthesis, catalysis, energy conversion/storage, electrical devices and medicine. Dalton Transactions welcomes high-quality, original submissions in all of these areas and more, where the advancement of knowledge in inorganic chemistry is significant.
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