Literature DB >> 33094865

Halogen Complexes of Anionic N-Heterocyclic Carbenes.

Jenni Frosch1, Marvin Koneczny1, Thomas Bannenberg1, Matthias Tamm1.   

Abstract

The lithium complexes [(WCA-NHC)Li(toluene)] of anionic N-heterocyclic carbenes with a weakly coordinating anionic borate moiety (WCA-NHC) reacted with iodine, bromine, or CCl4 to afford the zwitterionic 2-halogenoimidazolium borates (WCA-NHC)X (X=I, Br, Cl; WCA=B(C6 F5 )3 , B{3,5-C6 H3 (CF3 )2 }3 ; NHC=IDipp=1,3-bis(2,6-diisopropylphenyl)imidazolin-2-ylidene, or NHC=IMes=1,3-bis(2,4,6-trimethylphenyl)imidazolin-2-ylidene). The iodine derivative (WCA-IDipp)I (WCA=B(C6 F5 )3 ) formed several complexes of the type (WCA-IDipp)I⋅L (L=C6 H5 Cl, C6 H5 Me, CH3 CN, THF, ONMe3 ), revealing its ability to act as an efficient halogen bond donor, which was also exploited for the preparation of hypervalent bis(carbene)iodine(I) complexes of the type [(WCA-IDipp)I(NHC)] and [PPh4 ][(WCA-IDipp)I(WCA-NHC)] (NHC=IDipp, IMes). The corresponding bromine complex [PPh4 ][(WCA-IDipp)2 Br] was isolated as a rare example of a hypervalent (10-Br-2) system. DFT calculations reveal that London dispersion contributes significantly to the stability of the bis(carbene)halogen(I) complexes, and the bonding was further analyzed by quantum theory of atoms in molecules (QTAIM) analysis.
© 2020 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.

Entities:  

Keywords:  London dispersion; N-heterocyclic carbenes; halogen bonding; hypervalency; iodine

Year:  2020        PMID: 33094865      PMCID: PMC7986712          DOI: 10.1002/chem.202004418

Source DB:  PubMed          Journal:  Chemistry        ISSN: 0947-6539            Impact factor:   5.236


  83 in total

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Journal:  Dalton Trans       Date:  2009-06-22       Impact factor: 4.390

3.  Halogen Bonding Interactions: Revised Benchmarks and a New Assessment of Exchange vs Dispersion.

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Journal:  J Chem Theory Comput       Date:  2017-12-22       Impact factor: 6.006

4.  Halogen- and hydrogen-bonding triazole-functionalised porphyrin-based receptors for anion recognition.

Authors:  Lydia C Gilday; Nicholas G White; Paul D Beer
Journal:  Dalton Trans       Date:  2013-11-28       Impact factor: 4.390

5.  The Interaction Modes of Haloimidazolium Salts in Solution.

Authors:  Nils Schulz; Pandian Sokkar; Elric Engelage; Severin Schindler; Mate Erdelyi; Elsa Sanchez-Garcia; Stefan M Huber
Journal:  Chemistry       Date:  2017-12-28       Impact factor: 5.236

Review 6.  Hypervalent iodine reactions utilized in carbon-carbon bond formations.

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7.  'Janus-type' organopotassium chemistry observed in deprotonation of mesoionic imidazolium aminides and amino N-heterocyclic carbenes: coordination and organometallic polymers.

Authors:  Andreas A Danopoulos; Pierre Braunstein
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Review 8.  Halogen Bonding in Solution: Anion Recognition, Templated Self-Assembly, and Organocatalysis.

Authors:  Ronny Tepper; Ulrich S Schubert
Journal:  Angew Chem Int Ed Engl       Date:  2018-04-17       Impact factor: 15.336

9.  Halogen Bond Asymmetry in Solution.

Authors:  Sofia Lindblad; Krenare Mehmeti; Alberte X Veiga; Bijan Nekoueishahraki; Jürgen Gräfenstein; Máté Erdélyi
Journal:  J Am Chem Soc       Date:  2018-10-04       Impact factor: 15.419

10.  Halogen Complexes of Anionic N-Heterocyclic Carbenes.

Authors:  Jenni Frosch; Marvin Koneczny; Thomas Bannenberg; Matthias Tamm
Journal:  Chemistry       Date:  2020-12-21       Impact factor: 5.236
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3.  Tricyanoborane-Functionalized Anionic N-Heterocyclic Carbenes: Adjustment of Charge and Stereo-Electronic Properties.

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4.  Halogen Complexes of Anionic N-Heterocyclic Carbenes.

Authors:  Jenni Frosch; Marvin Koneczny; Thomas Bannenberg; Matthias Tamm
Journal:  Chemistry       Date:  2020-12-21       Impact factor: 5.236

5.  Rhodium and Iridium Complexes of Anionic Thione and Selone Ligands Derived from Anionic N-Heterocyclic Carbenes.

Authors:  Luong Phong Ho; Angelika Neitzel; Thomas Bannenberg; Matthias Tamm
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