Sulfur Lone Pairs Control Topology in Heterotrimetallic Complexes: An Experimental and Theoretical Study

IF 3.3 Q2 CHEMISTRY, MULTIDISCIPLINARY
Paulina Guerrero-Almaraz, Manuel Quiroz, David R. Rodriguez, Manish Jana, Michael B. Hall* and Marcetta Y. Darensbourg*, 
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Abstract

Heterotrimetallic complexes with (N2S2)M metallodithiolates, M = Ni2+, [Fe(NO)]2+, and [Co(NO)]2+, as bidentate chelating ligands to a central trans-Cr(NO)(MeCN) unit were characterized as the first members of a new class, NiCrNi, FeCrFe, CoCrCo. The complexes exhibit a cisoid structural topology, ascribed to the stereoactivity of the available lone pair(s) on the sulfur donors, resulting in a dispersed, electropositive pocket from the N/N and N/S hydrocarbon linkers wherein the Cr-NO site is housed. Computational studies explored alternative isomers (transoid and inverted cisoid) that suggest a combination of electronic and steric effects govern the geometrical selectivity. Electrostatic potential maps readily display the dominant electronegative potential from the sulfurs which force the NO to the electropositive pocket. The available S lone pairs work in synergy with the π-withdrawing ability of NO to lift Cr out of the S4 plane toward the NO and stabilize the geometry. The metallodithiolate ligands bound to Cr(NO) thus find structural consistency across the three congeners. Although the dinitrosyl [(bme-dach)Co(NO)-Mo(NO)(MeCN)-(bme-dach)Co(MeCN)][PF6]2 (CoMoCo′) analogue displays chemical noninnocence and a partial Mo–Co bond toward (N2S2)Co′(NCCH3) in an “asymmetric butterfly” topology [Guerrero-Almaraz, P. Inorg. Chem. 2021, 60(2121), 15975–15979], the stability of the {Cr(NO)}5 unit prohibits such bond rearrangement. Magnetism and EPR studies illustrate spin coupling across the sulfur thiolate sulfur bridges.

Abstract Image

孤对硫控制杂三金属配合物的拓扑结构:实验与理论研究
以 (N2S2)M 金属二硫酸盐(M = Ni2+、[Fe(NO)]2+ 和 [Co(NO)]2+ 作为中心反式-Cr(NO)(MeCN) 单元的双齿螯合配体)为特征的异三金属配合物是新类别 NiCrNi、FeCrFe、CoCrCo 的首批成员。这些配合物呈现出顺式结构拓扑,这归因于硫供体上可用孤对的立体活性,从而在 N/N 和 N/S 碳氢化合物连接体上形成了一个分散的电阳性口袋,Cr-NO 位点就位于该口袋中。计算研究探索了其他异构体(横向异构体和倒顺式异构体),结果表明,电子和立体效应共同作用于几何选择性。静电位图很容易显示出硫基的主要负电位,这迫使 NO 进入电阳性口袋。可用的 S 孤对与 NO 的 π 吸附能力协同作用,将 Cr 从 S4 平面抬向 NO,从而稳定了几何结构。因此,与 Cr(NO)结合的金属二硫酸盐配体在三种同系物中具有结构一致性。尽管二亚硝基 [(bme-dach)Co(NO)-Mo(NO)(MeCN)-(bme-dach)Co(MeCN)][PF6]2(CoMoCo′)类似物在 "不对称蝴蝶 "拓扑结构中显示出化学不纯性和部分 Mo-Co 键朝向 (N2S2)Co′(NCCH3) [Guerrero-Almaraz, P. Inorg.Chem.2021,60(2121),15975-15979],{Cr(NO)}5 单元的稳定性禁止了这种键的重排。磁性和 EPR 研究表明硫硫酸盐硫桥之间存在自旋耦合。
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来源期刊
ACS Organic & Inorganic Au
ACS Organic & Inorganic Au 有机化学、无机化学-
CiteScore
4.10
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0.00%
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期刊介绍: ACS Organic & Inorganic Au is an open access journal that publishes original experimental and theoretical/computational studies on organic organometallic inorganic crystal growth and engineering and organic process chemistry. Short letters comprehensive articles reviews and perspectives are welcome on topics that include:Organic chemistry Organometallic chemistry Inorganic Chemistry and Organic Process Chemistry.
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