Sinas Furan scite author profile

Four peri‐substituted acenaphthylphosphinoboranes 5‐Ph2P‐Ace‐6‐BRR′ (R = R′ = H; R = H, R′ = C6F5; R = Cl, R′ = C6F5; R = R′ = C6F5), possessing functionality at the B atoms, were prepared and fully characterized. A quantum‐chemical analysis of these and previously known (ace‐)naphthylaminoboranes and (ace‐)naphthylphosphinoboranes revealed that these compound classes can be divided into three subclasses, namely: regular Lewis pairs (LPs) with predominately attractive peri interactions; frustrated Lewis pairs (FLPs) with predominately repulsive peri interactions; and regular Lewis pairs with predominately repulsive peri interactions. The latter subclass is a straightforward example of the enforced proximity donor concept. A detailed bond analysis showed no principal difference between attractive and enforced B–P bonds in (ace‐)naphthylphosphinoboranes.

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Transition metal complexes of antimony centered ligands based upon acenaphthyl scaffolds. Coordination non-innocent or not?

Furan

Hupf

Boidol

et al. 2019

Dalton Trans.

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Transmetallation of Bis(6‐diphenylphosphinoacenaphth‐5‐yl)‐Mercury and ‐Tributyltin with Precious Metal Chlorides

Furan

Lork

Mebs

et al. 2020

Zeitschrift anorg allge chemie

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The reaction of bis(6‐diphenylphosphinoacenapht‐5yl)mercury, (6‐Ph2P‐Ace‐5‐)2Hg, with [(CO)2RhCl]2 and PtCl2 proceeded with extrusion of mercury / mercury(I) chloride and provided the octahedral rhodium and platinum complexes (6‐Ph2P‐Ace‐5‐)2Rh(CO)Cl and (6‐Ph2P‐Ace‐5‐)2PtCl2, respectively. The reaction of the (6‐diphenylphosphinoacenapht‐5yl)stannane 6‐Ph2P‐Ace‐5‐SnBu3 with PdCl2 gave rise to tributyltin chloride and a dimeric arylpalladium chloride [(6‐Ph2P‐Ace‐5‐)PdCl]2 with a planar Pd2Cl2 core. Together with the previously known gold(III) complex cis‐ and trans‐[R2Au][Cl], the newly prepared compounds were investigated by DFT calculations. The fully optimized gas‐phase structure of [(6‐Ph2P‐Ace‐5‐)PdCl]2 gives rise to a bend Pd2Cl2 core featuring a Pd···Pd palladophilic interaction. The bonding situation was studied using a set of real‐space bonding indicators (RSBIs) derived from the methods Atoms‐In‐Molecules (AIM), Electron Localizability Indicator (ELI‐D) and Non‐Covalent Interaction (NCI) index.

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(6-Diphenylphosphinoacenaphth-5-yl)indium and -nickel Compounds: Synthesis, Structure, Transmetalation, and Cross-Coupling Reactions

et al. 2021

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The reaction of (5-Ph 2 P-Ace-6-)Li (I) with InCl 3 provided (6-Ph 2 P-Ace-5-) 3 In (1), which proved to be a remarkably mild transmetalation reagent. The reaction of 1 with NiCl 2 , originally aimed to allow for a Z-type complex, gave (6-Ph 2 P-Ace-5-) 2 InCl (2) and (6-Ph 2 P-Ace-5-) 2 Ni (3), a rare example of a welldefined σ-bonded diorganonickel species. The reaction of (6-Ph 2 P-Ace-5-)X (II, X = F; III, X = Cl; IV, X = Br; V, X = I) with Ni(COD) 2 gave rise to the related dinuclear organonickel halides [(6-Ph 2 P-Ace-5-)NiX] 2 (4, X = F; 5, X = Cl; 6, X = Br; 7, X = I), which upon addition of MeCN yielded the mononuclear complexes (6-Ph 2 P-Ace-5-)Ni(NCMe)X (8, X = Cl; 9, X = Br; 10, X = I). At slightly elevated temperatures, 3−7 undergo a C−C cross-coupling reaction to give 6,6′-bis(diphenylphosphino)-5,5′-biacenaphthyl, (6-Ph 2 P-Ace-5-) 2 (11), having the potential for axial chirality. The electronic structures of 1−10 were investigated by DFT and TD-DFT calculations, including a set of realspace bonding indicators derived from the atoms in molecules (AIM), electron localizability indicator (ELI), and noncovalent interaction (NCI) index schemes.

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Sinas Furan

Insights into Frustrated and Regular peri‐Substituted (Ace‐)Naphthylaminoboranes and (Ace‐)Naphthylphosphinoboranes

Transition metal complexes of antimony centered ligands based upon acenaphthyl scaffolds. Coordination non-innocent or not?

Transmetallation of Bis(6‐diphenylphosphinoacenaphth‐5‐yl)‐Mercury and ‐Tributyltin with Precious Metal Chlorides

(6-Diphenylphosphinoacenaphth-5-yl)indium and -nickel Compounds: Synthesis, Structure, Transmetalation, and Cross-Coupling Reactions

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