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溶剂热合成中MoO纳米颗粒的溶剂引导生长及结构的机理洞察

Mechanistic insights into solvent-guided growth and structure of MoO nanoparticles in solvothermal synthesis.

作者信息

Graversen Laura G, Juelsholt Mikkel, Aalling-Frederiksen Olivia, Friis-Jensen Ulrik, Pittkowski Rebecca K, Thomsen Maria S, Kirsch Andrea, Magnard Nicolas P L, Jensen Kirsten M Ø

机构信息

Department of Chemistry and Nano-Science Center, University of Copenhagen 2100 Copenhagen Ø Denmark

Research Center Future Energy Materials and Systems of the Research Alliance Ruhr 44801 Bochum Germany.

出版信息

Chem Sci. 2025 Jun 30;16(31):14350-14365. doi: 10.1039/d5sc03247d. eCollection 2025 Aug 6.

DOI:10.1039/d5sc03247d
PMID:40656539
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12243927/
Abstract

Understanding the processes involved in the nucleation and growth of nanoparticles is essential for the development of tailored nanomaterials. Here, we investigate the solvent effects on the atomic structure and size of nanocrystalline MoO obtained from a solvothermal synthesis and deduce their reaction pathways. Detailed pair distribution function (PDF) analysis reveals the formation of distinct MoO structures, depending on the alcohol used. We show that the atomic structure and crystallite size of the formed materials are directly related to their formation pathway. PDF analysis together with X-ray absorption spectroscopy of the reaction between MoCl and an alcohol solvent allows us to see that larger nanoparticles ( 30 nm) with the conventional MoO distorted rutile structure form when the initial Cl/O-ligand exchange is fast, but the subsequent condensation and crystallization are slowed down in the synthesis process. On the other hand, when the Cl/O exchange is slowed down, a [MCl O ]-complex is formed, and we obtain very small nanoparticles (2-3 nm) with the MoO high-pressure polymorph structure. The study shows how the chemistry of the reaction solvent affects the mechanistic pathways, and consequently the intermediate formed just prior to crystallization, which is directly applicable to the process of obtaining specific nanocrystalline materials.

摘要

了解纳米颗粒成核和生长过程对于定制纳米材料的开发至关重要。在此,我们研究了溶剂对通过溶剂热合成获得的纳米晶MoO的原子结构和尺寸的影响,并推断其反应途径。详细的对分布函数(PDF)分析揭示了不同MoO结构的形成,这取决于所使用的醇。我们表明,所形成材料的原子结构和微晶尺寸与其形成途径直接相关。PDF分析以及MoCl与醇溶剂之间反应的X射线吸收光谱使我们能够看到,当初始Cl/O配体交换快速时,会形成具有传统MoO扭曲金红石结构的较大纳米颗粒(>30 nm),但在合成过程中随后的缩合和结晶会减慢。另一方面,当Cl/O交换减慢时,会形成[MClₓOᵧ]-络合物,并且我们会获得具有MoO高压多晶型结构的非常小的纳米颗粒(2-3 nm)。该研究表明反应溶剂的化学性质如何影响机理途径,进而影响结晶前直接形成的中间体,这直接适用于获得特定纳米晶材料的过程。

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