Journal Article10.1021/ACS.CHEMREV.0C00392
Metallaaromatic Chemistry: History and Development.
166
TL;DR: This review provides a comprehensive overview of metallaromatic chemistry and focuses on not only the six major classes of metallaaromatics, including the main-group-metal-based metallaarate compounds, but also other types, such as metallacyclobutadienes and met allacyclopropenes.
read more
Abstract: Since the prediction of the existence of metallabenzenes in 1979, metallaaromatic chemistry has developed rapidly, due to its importance in both experimental and theoretical fields. Now six major types of metallaromatic compounds, metallabenzenes, metallabenzynes, heterometallaaromatics, dianion metalloles, metallapentalenes and metallapentalynes (also termed carbolongs), and spiro metalloles, have been reported and extensively studied. Their parent organic analogues may be aromatic, non-aromatic, or even anti-aromatic. These unique systems not only enrich the large family of aromatics, but they also broaden our understanding and extend the concept of aromaticity. This review provides a comprehensive overview of metallaaromatic chemistry. We have focused on not only the six major classes of metallaaromatics, including the main-group-metal-based metallaaromatics, but also other types, such as metallacyclobutadienes and metallacyclopropenes. The structures, synthetic methods, and reactivities are described, their applications are covered, and the challenges and future prospects of the area are discussed. The criteria commonly used to judge the aromaticity of metallaaromatics are presented.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Aromaticity: Quo Vadis
Gabriel Merino,Miquel Solà,Israel Fernández,Cina Foroutan-Nejad,Paolo Lazzeretti,Gernot Frenking,Harry L. Anderson,Dage Sundholm,F. Cossio,Marina A. Petrukhina,Jishan Wu,Judy Z. Wu,Albeiro Restrepo +12 more
TL;DR: Aromaticity is one of the most deeply rooted concepts in chemistry as mentioned in this paper . But why, if two-thirds of existing compounds can be classified as aromatic, is there no consensus on what aromaticity is?
Program Package for the Calculation of Origin-Independent Electron Current Density and Derived Magnetic Properties in Molecular Systems.
TL;DR: SYSMOIC as mentioned in this paper is a program package for the calculation of the origin-independent current density induced at first order by an external magnetic field in planar and nonplanar molecular systems.
75
Metalla-aromatics: Planar, Nonplanar, and Spiro.
TL;DR: In this paper, a series of metalla-aromatics with transition metals involved in conjugation and electron delocalization of aromatic compounds are presented. But, unlike the planar metalla aromatics, the non-planar aromatic compounds are not necessarily planar.
57
Selective Difunctionalization of Unactivated Aliphatic Alkenes Enabled by a Metal-Metallaaromatic Catalytic System.
TL;DR: In this article , the authors describe a heterometallic [Os-Cu] complex with the characteristics of bimetallics, metallaaromatics, and pincer complexes for selective amino-and oxyselenation of unactivated alkenes.
52
Hydroelementation of diynes
TL;DR: In this paper , a comprehensive review highlights the hydroelementation reactions of conjugated and separated diynes to various products including enynes, dienes, allenes, polymers or cyclic compounds.
46
References
Cyclometalated Complexes of Platinum(II) with 2‐Vinylpyridine
Antonio Zucca,Luca Maidich,Veronica Carta,Giacomo Luigi Petretto,Sergio Stoccoro,Maria Agostina Cinellu,Maria Itria Pilo,Guy J. Clarkson +7 more
TL;DR: The electron-rich platinum(II) derivatives [Pt(R)2(DMSO)2] (R = Me, Ph) react with 2-vinylpyridine (L) to give the cyclometalated complexes [pt(L-H)(R)(DMSSO)] through C-H bond activation as mentioned in this paper.
20
The novel link between planar möbius aromatic and third order nonlinear optical properties of metal-bridged polycyclic complexes.
TL;DR: It is found that the bridge–head metal can stabilize and influence rings, thus creating π–, σ– and metalla–aromaticity in an extended, π-conjugated framework, which reveals useful information to develop new applications of metal regulatory mechanism in NLO materials field.
20
Reactions of acyl- and alkyl-(tricarbonyl)(η5-cyclopentadienyl)-molybdenum and -tungsten complexes with but-2-yne; molecular structures of [Mo(CO)(ButNC)(η3-{O·C(O)·CMe·CMe·CMe})(η5-C5H5)] and [Mo·C(O)·C(Me){C(Me)}2C(Me)·C(CF3)·O(CO)(η5-C5H5)]
John L. Davidson,Michael Green,Jeffrey Z. Nyathi,Caron Scott,F. Gordon A. Stone,Alan J. Welch,Peter Woodward +6 more
TL;DR: In this article, the reaction of MR(CO)3(η5-C5H5) with but-2-yne affords either the vinylketone complexes or the eight-membered ring complex.
20
Reactions of Cyclic Osmacarbyne with Coinage Metal Complexes
TL;DR: In this article, a complete set of coinage metal (Cu, Ag, and Au) complexes have been investigated for the reactions of the five-membered cyclic osmacarbyne complex.
20