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配体约束的氮族元素配合物对氧的直接活化:磷、锑和铋三元素组的不同机制及氧原子转移反应活性

Direct O Activation by Ligand-Constrained Pnictogen Complexes: Contrasting Mechanisms and OAT Reactivity across the P, Sb, and Bi Triad.

作者信息

Kim Sung Gyu, Oh Jinrok, Kim Dongyoung, Choi Dae Eui, Hwang Seung Jun

机构信息

Department of Chemistry, Pohang University of Science and Technology, Pohang 37673, Republic of Korea.

Division of Advanced Materials Science, Pohang University of Science and Technology, Pohang 37673, Republic of Korea.

出版信息

JACS Au. 2025 Jun 3;5(6):2779-2791. doi: 10.1021/jacsau.5c00371. eCollection 2025 Jun 23.

DOI:10.1021/jacsau.5c00371
PMID:40575303
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12188391/
Abstract

Electronic structure-reactivity relationships are fundamental to advancing the redox chemistry of main-group elements. Herein, we investigate a series of planarized pnictogen complexes (Pn = P, Sb, Bi) to correlate their electronic structures with reactivity trends across the pnictogen group. Through single-crystal X-ray diffraction, UV-vis spectroscopy, electrochemical measurements, and density functional theory (DFT) calculations, we demonstrate a systematic reduction in HOMO-LUMO gap progressing from phosphorus to bismuth, accompanied by enhanced stabilization of the nucleophilic lone pair. Oxygen atom transfer (OAT) reactivity, probed using triphenylpnictines (PnPh, Pn = P, Sb, Bi) as mechanistic and thermodynamic reporters, reveals distinctive oxidation pathways. The phosphorus complex () undergoes a four-electron oxidation to yield a dioxophosphorane species, whereas the heavier congeners ( and ) generate monooxygenated Pn=O products exclusively. This mechanistic divergence is attributed to pronounced orbital contraction in heavier pnictogens, which stabilizes the lone pair and attenuates its participation in multielectron redox processes. Computational and experimental analyses corroborate these trends, with Hammett studies and p calculations of peroxo intermediates revealing enhanced nucleophilicity of the oxygen center with increasing pnictogen atomic weight, thereby influencing the OAT mechanism. These findings provide fundamental insights into periodic trends governing oxidation chemistry and demonstrate how strategic ligand design can modulate pnictogen-based multielectron reactivity. The broader implications extend to small-molecule activation and catalysis, offering a predictive framework for designing advanced redox-active main-group systems.

摘要

电子结构-反应活性关系对于推动主族元素的氧化还原化学至关重要。在此,我们研究了一系列平面化的氮族元素配合物(Pn = P、Sb、Bi),以关联它们的电子结构与整个氮族元素的反应活性趋势。通过单晶X射线衍射、紫外-可见光谱、电化学测量和密度泛函理论(DFT)计算,我们证明了从磷到铋,HOMO-LUMO能隙系统性减小,同时亲核孤对电子的稳定性增强。使用三苯基氮族元素(PnPh,Pn = P、Sb、Bi)作为机理和热力学报告分子来探测的氧原子转移(OAT)反应活性,揭示了独特的氧化途径。磷配合物()经历四电子氧化生成二氧磷杂环戊烷物种,而较重的同系物(和)仅生成单氧化的Pn=O产物。这种机理差异归因于较重氮族元素中明显的轨道收缩,这稳定了孤对电子并减弱了其参与多电子氧化还原过程的程度。计算和实验分析证实了这些趋势,哈米特研究和过氧中间体的p计算表明,随着氮族元素原子量的增加,氧中心的亲核性增强,从而影响了OAT机理。这些发现为控制氧化化学的周期性趋势提供了基本见解,并展示了如何通过策略性配体设计来调节基于氮族元素的多电子反应活性。更广泛的意义延伸到小分子活化和催化,为设计先进的氧化还原活性主族体系提供了一个预测框架。

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本文引用的文献

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