Regioselective Insertion of Aluminum(I) in the <i>cyclo</i>‐P<sub>5</sub> Ring of Pentaphosphaferrocene

Yadav, Ravi; Simler, Thomas; Goswami, Bhupendra; Schoo, Christoph; Köppe, Ralf; Dey, Subhayan; Roesky, Peter W.

doi:10.1002/anie.202002774

Cited by 17 publications

(8 citation statements)

References 73 publications

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“…[46] This is reminiscent of the cluster compound [(Cp*Al(IMe 4 ))(m,h 3 :h 4 -P 5 )FeCp*] with an h 1 Cp* group on aluminium, which displays an AlÀC NHC distance [2.017 (6) ] shorter than those of 5 [2.100(2), 2.083(2)]. [47] In the related compound [(IiPr 2 )HAl(m-PSiPh 2 tBu)] 2 the NHCs are in a cisarrangement. [15] Surprisingly,o ne of the ring phosphorus atoms is now in an early planar coordination environment (S(]P2) = 347.878 8), whereas the other is now closer to an ideal trigonal pyramidal coordination environment (S(]P1) = 299.838 8).…”

Section: Reactivity Of Diphosphadialanes With Lewis Basesmentioning

confidence: 99%

Cyclo‐Dipnictadialanes

et al. 2021

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Using the Al I precursor Cp 3t Al in conjunction with triphosphiranes (PAr) 3 (Ar = Mes,Dip,Tip) we have succeeded in preparing Lewis base-free cyclic diphosphadialanes with both the Al and Patoms bearing three substituents.U sing the sterically more demanding Dip and Tips ubstituents the first 1,2-diphospha-3,4-dialuminacyclobutanes were obtained, whereas with Mes substituents [Cp 3t Al(m-PMes)] 2 is formed. This divergent reactivity was corroborated by DFT studies, which indicated the thermodynamic preference for the 1,2diphospha-3,4-dialuminacyclobutane form for sterically more demanding groups on phosphorus.U sing Cp*Al we could extend this concept to the corresponding cyclic diarsadialanes [Cp*Al(m-AsAr)] 2 (Ar = Dip,T ip) and additionally add the phosphorus variants [Cp*Al(m-PAr)] 2 (P = Mes,D ip,T ip). The reactivity of one variant [Cp 3t Al(m-PPh)] 2 towards NHCs was tested and resulted in double NHC-stabilised [Cp 3t -(IiPr 2 )Al(m-PPh)] 2 .

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Section: Reactivity Of Diphosphadialanes With Lewis Basesmentioning

confidence: 99%

Cyclo‐Dipnictadialanes

et al. 2021

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“…Roesky and co‐workers also studied the reaction of 140 a toward related low valent aluminium compounds [73] . Treatment of 140 a with an equimolar amount of [Al(nacnac)] (nacnac=CH[CMeN(2,6‐ i Pr 2 C 6 H 3 )] 2 ) at room temperature afforded the triple‐decker type complex [(nacnacAl)(μ 2 ,η 3 :η 4 ‐P 5 )FeCp*] ( 150 a ), which features a bent cyclo ‐P 5 middle‐deck (Scheme 25 c).…”

Section: Transition‐metal‐mediated Functionalization Of White Phosphorusmentioning

confidence: 99%

“…[72] Treatmento f140 a with one equivalent of the sterically encumbered silylene Roesky and co-workersa lso studied the reaction of 140 a toward related low valent aluminiumc ompounds. [73] As mentioned in section2.4.3 (Scheme 20), Scheer and coworkers have demonstrated that the N-heterocyclicc arbene 1,3,4,5-tetramethylimidazol-2-ylidene (NHC) is av aluable reagent for the contraction of a cyclo-P 4 ring. [63] In the same work, this concept was also appliedt ot he early transitionmetal triple-decker sandwich complexes [(Cp*M) 2 (m,h 6 :h 6 -P 6 )] (152,M = V, Mo, Scheme 26).…”

Section: Functionalization Of P N Ligands (N ! 5)mentioning

confidence: 99%

Transition‐Metal‐Mediated Functionalization of White Phosphorus

Hoidn

Scott

Wolf

2020

Chemistry A European J

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Recently there has been great interest in the reactivity of transition‐metal (TM) centers towards white phosphorus (P4). This has ultimately been motivated by a desire to find TM‐mediated alternatives to the current industrial routes used to transform P4 into myriad useful P‐containing products, which are typically indirect, wasteful, and highly hazardous. Such a TM‐mediated process can be divided into two steps: activation of P4 to generate a polyphosphorus complex TM‐Pn, and subsequent functionalization of this complex to release the desired phosphorus‐containing product. The former step has by now become well established, allowing the isolation of many different TM‐Pn products. In contrast, productive functionalization of these complexes has proven extremely challenging and has been achieved only in a relative handful of cases. In this review we provide a comprehensive summary of successful TM‐Pn functionalization reactions, where TM‐Pn must be accessible by reaction of a TM precursor with P4. We hope that this will provide a useful resource for continuing efforts that are working towards this highly challenging goal of modern synthetic chemistry.

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“… 14,15,23 Indeed, the major drawback of the so far used strategies is their immensely limited applicability to a very narrow range of electrophile/nucleophile combinations. This is usually reflected in the use of rather exotic low-valent main group species such as tetrylenes, 14 b ,18 {Cp*Al} 4 , 24 or the utilization of highly reactive, e.g. anionic, polyphosphorus ligand complexes.…”

Section: Introductionmentioning

confidence: 99%