Planar pentacoordinate s-block metals

Wang, Menghui; Kalita, Amlan J.; Orozco‐Ic, Mesías; Yan, Guizhen; Chen, Chen; Yan, Bing; Castillo-Toraya, Gabriela; Tiznado, William; Guha, Ankur K.; Pan, Sudip; Cui, Zhong‐hua; Merino, Gabriel

doi:10.1039/d2sc05939h

Cited by 12 publications

(11 citation statements)

References 94 publications

(81 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Our calculations indicate the existence of a diatropic ring current both above the ring and within the ring plane, extending to a distance of 2.0 Å. The NICS ZZ values were calculated with incremental distances of 0.5 Å in two dimensions …”

Section: Resultsmentioning

confidence: 82%

Enhancing Precatalyst Performance and Robustness through Aromaticity: Insights from Iridaheteroaromatics

Khatal,

Purkayastha,

Guha

et al. 2024

J. Org. Chem.

Self Cite

View full text Add to dashboard Cite

Despite the inherent stability-enhancing benefits of dπ−pπ conjugation-induced aromaticity, metallaaromatic catalysts remain underutilized in this context, despite their reactivity with organic functionalities in stoichiometric reactions. We present a strategy for synthesizing a diverse range of iridaheteroaromatics, (L^L)Ir III (Cp*)I, including iridapyridylidene-indole, iridapyridene-indole, and iridaimidazole, via in situ deprotonation/metalation reactions utilizing [Cp*IrCl 2 ] 2 and the respective ligands. These catalysts exhibit enhanced σ-donor and π-acceptor properties, intrinsic σ−π continuum attributes, and versatile binding sites, contributing to stability through enhanced dπ−pπ conjugation-induced aromaticity. Spectroscopic data, X-ray crystallographic data, and density functional theory calculations confirm their aromaticity. These iridaheteroaromatics exhibit formidable catalytic ability across a spectrum of transformations under industrially viable conditions, notably excelling in highly selective cross alkylation and βalkylation of alcohols and an eco-friendly avenue for quinolone synthesis, achieving remarkably high turnover frequencies (TOFs). Additionally, this method extends to the self-condensation of bioalcohols like ethanol, n-butanol, and n-hexanol in water, replicating conditions frequently encountered in primary fermentation solutions. These iridaheteroaromatics exhibit strong catalytic activity with fast reaction rates, high TOFs, broad substrate compatibility, and remarkable selectivity, displaying their potential as robust catalysts in large-scale applications and emphasizing their practical significance beyond their structural and theoretical importance.

show abstract

Section: Resultsmentioning

confidence: 82%

Enhancing Precatalyst Performance and Robustness through Aromaticity: Insights from Iridaheteroaromatics

Khatal,

Purkayastha,

Guha

et al. 2024

J. Org. Chem.

Self Cite

View full text Add to dashboard Cite

show abstract

“…To avoid misinterpretations and to properly quantify the degree of aromaticity, the ring-current strengths should be computed by integrating the current density avoiding the influence of the atomic currents. An approach based on removing valence electrons 65,69 (RVE) suggests that ring current strengths calculated in planes intersecting a nucleus account for the flux of the ring current but also for that caused by the atomic currents. The RVE approximation cannot be used in these systems to disregard this core-electron effect directly, since the energy gap between the lowest occupied σ orbital and the highest core orbital is very small.…”

Section: Resultsmentioning

confidence: 99%

Understanding the bonding and aromaticity of [Au₃{C₄H₄(X)₄E}₃]⁻ (X = CF₃, CN, BO; E = Si, Ge): trinuclear gold superhalogens

Das,

Sinha,

Roymahapatra

et al. 2024

New J. Chem.

Self Cite

View full text Add to dashboard Cite

show abstract

“…5 Since then, ptC has progressed enormously both theoretically 6–13 and experimentally 14–20 and has also been extended to planar hypercoordination in the main group and s-block elements. 21–27 The magic number for planar species, known as the “18-valence electron rule”, 28 has been designed in the past and shown to be effective for various systems 6,7,29,30 to understand the bonding and stability of these species.…”

Section: Introductionmentioning

confidence: 99%

Global minimum and a heap of low-lying isomers with planar tetracoordinate carbon in the CAl₃MgH₂⁻ system

Malhan,

Thirumoorthy

2024

Phys. Chem. Chem. Phys.

View full text Add to dashboard Cite

show abstract

Planar pentacoordinate s-block metals

Abstract: The presence of a delocalized pi-bond is often considered an essential criterion for achieving planar hypercoordination. Herein, we show that sigma-delocalization could be sufficient to make the planar configuration the...

Cited by 12 publications

References 94 publications

Enhancing Precatalyst Performance and Robustness through Aromaticity: Insights from Iridaheteroaromatics

Enhancing Precatalyst Performance and Robustness through Aromaticity: Insights from Iridaheteroaromatics

Understanding the bonding and aromaticity of [Au₃{C₄H₄(X)₄E}₃]⁻ (X = CF₃, CN, BO; E = Si, Ge): trinuclear gold superhalogens

Global minimum and a heap of low-lying isomers with planar tetracoordinate carbon in the CAl₃MgH₂⁻ system

Contact Info

Product

Resources

About

Planar pentacoordinate s-block metals

Abstract: The presence of a delocalized pi-bond is often considered an essential criterion for achieving planar hypercoordination. Herein, we show that sigma-delocalization could be sufficient to make the planar configuration the...

Cited by 12 publications

References 94 publications

Enhancing Precatalyst Performance and Robustness through Aromaticity: Insights from Iridaheteroaromatics

Enhancing Precatalyst Performance and Robustness through Aromaticity: Insights from Iridaheteroaromatics

Understanding the bonding and aromaticity of [Au3{C4H4(X)4E}3]− (X = CF3, CN, BO; E = Si, Ge): trinuclear gold superhalogens

Global minimum and a heap of low-lying isomers with planar tetracoordinate carbon in the CAl3MgH2− system

Contact Info

Product

Resources

About

Understanding the bonding and aromaticity of [Au₃{C₄H₄(X)₄E}₃]⁻ (X = CF₃, CN, BO; E = Si, Ge): trinuclear gold superhalogens

Global minimum and a heap of low-lying isomers with planar tetracoordinate carbon in the CAl₃MgH₂⁻ system