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Ln(hfac)(HO)(Ln = La - Sm,Tb)的机械化学合成:10配位、9配位和8配位Ln(hfac)配合物的分离

Mechanochemical Syntheses of Ln(hfac)(HO) (Ln = La-Sm, Tb): Isolation of 10-, 9-, and 8-Coordinate Ln(hfac) Complexes.

作者信息

Chappidi Deepthi Y, Gordon Matthew N, Ashberry Hannah M, Huang Junjie, Labedis Bruce M, Cooper Riley E, Cooper Brandon J, Carta Veronica, Skrabalak Sara E, Dunbar Kim R, Fatila Elisabeth M

机构信息

Department of Chemistry and Physics, Louisiana Tech University, 1 Adams Blvd., Ruston, Louisiana 71272, United States.

Department of Chemistry, Indiana University Bloomington, 800 E. Kirkwood Ave., Bloomington, Indiana 47405, United States.

出版信息

Inorg Chem. 2022 Aug 8;61(31):12197-12206. doi: 10.1021/acs.inorgchem.2c01274. Epub 2022 Jul 26.

DOI:10.1021/acs.inorgchem.2c01274
PMID:35892174
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9374134/
Abstract

Volatile lanthanide coordination complexes are critical to the generation of new optical and magnetic materials. One of the most common precursors for preparing volatile lanthanide complexes is the hydrate with the general formula Ln(hfac)(HO) ( = 3 for La-Nd, = 2 for Sm) (hfac = 1,1,1,5,5,5-hexafluoroacetylacetonato). We have investigated the synthesis of Ln(hfac)(HO) using more environmentally sustainable mechanochemical approaches. Characterization of the products using Fourier transform infrared spectroscopy, nuclear magnetic resonance spectroscopy, elemental analysis, and powder X-ray diffraction shows substantial differences in product distribution between methods. The mechanochemical synthesis of the hydrate complexes leads to a variety of coordination compounds including the expected hydrate product, the known retro-Claisen impurity, and hydrated protonated Hhfac ligand depending on the technique employed. Surprisingly, 10-coordinate complexes of the form NaLn(hfac)·3HO for Ln = La-Nd were also isolated from reactions using a mortar and pestle. The electrostatic bonding of lanthanide coordination complexes is a challenge for obtaining reproducible reactions and clean products. The reproducibility issues are most acute for the large, early lanthanides whereas for the mid to late lanthanides, reproducibility in terms of product distribution and yield is less of an issue because of their smaller size and greater charge to radius ratio. Ball milling increases reproducibility in terms of generating the desired Ln(hfac)(HO) along with hydrated Hhfac (tetraol) and free Hhfac products. The results illustrate the dynamic behavior of lanthanide complexes in solution and the solid state as well as the structural diversity available to the early lanthanides.

摘要

挥发性镧系配位络合物对于新型光学和磁性材料的生成至关重要。制备挥发性镧系络合物最常见的前体之一是通式为Ln(hfac)(HO)(La - Nd时 = 3,Sm时 = 2)(hfac = 1,1,1,5,5,5 - 六氟乙酰丙酮)的水合物。我们使用更具环境可持续性的机械化学方法研究了Ln(hfac)(HO)的合成。使用傅里叶变换红外光谱、核磁共振光谱、元素分析和粉末X射线衍射对产物进行表征,结果表明不同方法之间产物分布存在显著差异。水合物络合物的机械化学合成会产生多种配位化合物,包括预期的水合物产物、已知的逆克莱森杂质以及取决于所采用技术的水合质子化Hhfac配体。令人惊讶的是,对于Ln = La - Nd,还从使用研钵和杵的反应中分离出了形式为NaLn(hfac)·3HO的10配位络合物。镧系配位络合物的静电键合对于获得可重现的反应和纯净产物是一个挑战。对于较大的早期镧系元素,重现性问题最为严重,而对于中晚期镧系元素,由于其尺寸较小和电荷半径比更大,产物分布和产率方面的重现性问题则不那么突出。球磨在生成所需的Ln(hfac)(HO)以及水合Hhfac(四醇)和游离Hhfac产物方面提高了重现性。结果说明了镧系络合物在溶液和固态中的动态行为以及早期镧系元素可获得的结构多样性。

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