Strong uranium-phosphorus antiferromagnetic exchange coupling in a crystalline diphosphorus radical trianion actinide complex

IF 19.1 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Chem Pub Date : 2024-11-01 DOI:10.1016/j.chempr.2024.10.004

Jingzhen Du, Benjamin E. Atkinson, John A. Seed, Rebecca F. Sheppard, Floriana Tuna, Ashley J. Wooles, Nicholas F. Chilton, Stephen T. Liddle

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Abstract

The dominant form of elemental nitrogen on Earth is dinitrogen, but elemental phosphorus is found predominantly as white phosphorus or other singly bonded allotropes. Thus, there is interest in studying diphosphorus derivatives, most notably trapping between metal ions affording diphosphorus in +2, +1⋅, 0, 1−⋅, 2−, and 4− charge states. However, the diphosphorus radical trianion form had previously remained elusive due to the instability of main-group diatomics with large, odd negative charges. Here, we disclose a crystalline diuranium diphosphorus radical trianion complex with strong antiferromagnetic uranium-phosphorus magnetic exchange coupling parameters of up to −731 cm⁻¹. This value is over five times greater than that of lanthanide analogues and is comparable to or exceeds d-block metal-metal and metal-ligand exchange couplings, despite being based on a 5f metal, which is typically regarded as possessing contracted valence orbitals compared with d-block ions. This highlights exchange-coupled f-element-p-block radical bridged character that can be engendered in molecular magnetism.

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结晶二磷基三阴离子锕系元素络合物中的强铀磷反铁磁交换耦合

地球上氮元素的主要形式是二氮，但磷元素主要以白磷或其他单键同素异形体的形式存在。因此，人们对二磷酸衍生物的研究产生了浓厚的兴趣，其中最引人注目的是金属离子之间的捕获作用，这种捕获作用可产生 +2、+1⋅、0、1⋅、2 和 4 电荷态的二磷酸。然而，由于带有大量奇数负电荷的主族二元化合物的不稳定性，二磷基三阴离子形式以前一直难以捉摸。在这里，我们揭示了一种结晶二钛二磷酸根三阴离子复合物，它具有高达 -731 cm-1 的强反铁磁性铀-磷磁性交换耦合参数。这一数值比镧系元素类似物的数值高出五倍以上，与 d-块金属-金属和金属-配体交换耦合相当，甚至更高，尽管它是基于 5f 金属，而 5f 金属通常被认为比 d-块离子具有收缩的价轨道。这突显了在分子磁性中可以产生的交换耦合 f 元素-p 块基桥特性。

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来源期刊

Chem Environmental Science-Environmental Chemistry

CiteScore

32.40

自引率

1.30%

发文量

281

期刊介绍： Chem, affiliated with Cell as its sister journal, serves as a platform for groundbreaking research and illustrates how fundamental inquiries in chemistry and its related fields can contribute to addressing future global challenges. It was established in 2016, and is currently edited by Robert Eagling.