Double Deprotonation of CH₃CN by an Iron-Aluminium Complex

Stadler, Benedek; Gorgas, Nikolaus; White, Andrew; Crimmin, Mark

doi:10.1002/anie.202219212

Record link:

http://hdl.handle.net/20.500.12708/191583

Title:

Double Deprotonation of CH₃CN by an Iron-Aluminium Complex

Citation:

Stadler, B., Gorgas, N., White, A., & Crimmin, M. (2023). Double Deprotonation of CH₃CN by an Iron-Aluminium Complex. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 62(16), Article e202219212. https://doi.org/10.1002/anie.202219212

Publisher DOI:

10.1002/anie.202219212

Publication Type:

Article - Original Research Article

Language:

English

Authors:

Stadler, Benedek
Gorgas, Nikolaus
White, Andrew
Crimmin, Mark

Organisational Unit:

E163-01-1 - Forschungsgruppe Organometallische Chemie und Katalyse

Journal:

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION

ISSN:

1433-7851

Date (published):

11-Apr-2023

Number of Pages:

Publisher:

WILEY-V C H VERLAG GMBH

Peer reviewed:

Yes

Keywords:

Aluminium; CH Activation; Dianions; Iron; Nitriles

Abstract:

Hereinwe presentthe firstdoubledeprotona-tionof acetonitrile(CH3CN)usingtwo equivalentsof abimetalliciron-aluminiumcomplex.Theproductsof thisreactioncontainan exceedingsimpleyet rare[CHCN]2 dianionmoietythatbridgestwometalfragments.DFTcalculationssuggestthatthebondingto themetalcentresoccursthroughheavilypolarisedcovalentinter-actions.Mechanisticstudiesrevealthe intermediacyof amonomeric[CH2CN] complex,whichhas beencharac-terisedin situ.Ourfindingsprovidean importantexamplein whicha bimetallicmetalcomplexachievesanewtypeof reactivitynot previouslyencounteredwithmonometalliccounterparts.[1,2]Theisolationof a[CHCN]2 dianionthroughsimpledeprotonationofCH3CNalsooffersthepossibilityof establishingabroaderchemistryof this motif.

Research facilities:

Vienna Scientific Cluster

Project title:

Eisen Katalysierte Wasserstoff Isotopen Markierung: J 4399-N (FWF - Österr. Wissenschaftsfonds)

Project (external):

FluoroCycle

Project ID:

101001071

Research Areas:

Sustainable Production and Technologies: 100%

Science Branch:

1040 - Chemie: 100%

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