Dimorpholinoacetylene and Its Use for the Synthesis of Tetraaminocyclobutadiene Species
Lukas Körner, Luong Phong Ho, Ralph Puchta, Amnon Stanger, Matthias Tamm
Abstract
Abstract The new diaminoacetylene (DAA) dimorpholinoacetylene ( 3 ) was prepared from 1,1‐dimorpholinoethene ( 1 ) by bromination to form the dibromoketene aminal 2 , which upon lithiation afforded 3 through a Fritsch‐Buttenberg‐Wiechell rearrangement. Heating 3 at elevated temperatures resulted in a complete conversion into the dimer 1,1,2,4‐tetramorpholino‐1‐buten‐3‐yne ( 4 ), which was used for the synthesis of four‐membered cyclic bent allene (CBA) transition‐metal complexes of the type [(CBA)ML n ] ( 5 ‐ 7 ; ML n =AuCl, RhCl(COD), RhCl(CO) 2 ; CBA=1,3,4,4‐tetramorpholino‐1,2‐cyclobutadiene; COD=1,5‐cyclooctadiene). The reaction of 3 with tetraethylammonium bromide gave 1,2,3,4‐tetramorpholinocyclobutenylium bromide ( 8 ), which reacted with bromine to form 1,2,3,4‐tetra(morpholino)cyclobutenediylium bis(tribromide) ( 9 ). Compound 9 represents the first fully characterized compound containing a tetraaminocyclobutadiene dication and displays a nearly planar C 4 N 4 core as shown by X‐ray diffraction analysis. Detailed quantum chemical calculations were performed to assess the aromaticity of tetraaminocyclubutadiene dications by employing the Nucleus Independent Chemical Shift (NICS) method and current density analysis.