Dimerisation of Dipiperidinoacetylene: Convenient Access to Tetraamino‐1,3‐Cyclobutadiene and Tetraamino‐1,2‐Cyclobutadiene Metal Complexes

Abstract: The reaction of 1,2‐dipiperidinoacetylene (1) with 0.5 equivalents of SnCl2 or GeCl2⋅dioxane afforded the 1,2,3,4‐tetrapiperidino‐1,3‐cyclobutadiene tin and germanium dichloride complexes 2 a and 2 b, respectively. A competing redox reaction was observed with excess amounts of SnCl2, which produced a tetrapiperidinocyclobutadiene dication with two trichlorostannate(II) counterions. Heating neat 1 to 110 °C for 16 h cleanly produced the dimer 1,3,4,4‐tetrapiperidino‐3‐buten‐1‐yne (3); its reaction with stoichio… Show more

“…DAAs have received renewed interest in recent years since our group has introduced a more convenient route for the preparation of DAAs such as 1a – 1c , which bear cyclic piperidinyl-type amino substituents (Figure ). The coordination chemistry of these alkynes, predominantly 1a , toward transition-metal − and main group elements − has been studied, with their reactivity often being distinctly different from that of conventional alkynes because of their latent diamino–dicarbene nature . Since the presence of amino substitutions appears to be favorable for the catalytic performance of CPD iron complexes as already demonstrated for diamino systems such as III , ,,, we envisaged that the preparation of symmetric as well as asymmetric tetraaminocyclopentadienone complexes related to IV from the DAAs 1a – 1c might give access to highly active hydrogenation (pre-)­catalysts (see box in Figure ), and our results are described below.…”

Tetraaminocyclopentadienone Iron Complexes as Hydrogenation Catalysts

“…DAAs have received renewed interest in recent years since our group has introduced a more convenient route for the preparation of DAAs such as 1a – 1c , which bear cyclic piperidinyl-type amino substituents (Figure ). The coordination chemistry of these alkynes, predominantly 1a , toward transition-metal − and main group elements − has been studied, with their reactivity often being distinctly different from that of conventional alkynes because of their latent diamino–dicarbene nature . Since the presence of amino substitutions appears to be favorable for the catalytic performance of CPD iron complexes as already demonstrated for diamino systems such as III , ,,, we envisaged that the preparation of symmetric as well as asymmetric tetraaminocyclopentadienone complexes related to IV from the DAAs 1a – 1c might give access to highly active hydrogenation (pre-)­catalysts (see box in Figure ), and our results are described below.…”

Tetraaminocyclopentadienone Iron Complexes as Hydrogenation Catalysts

“…This is significantly more up-field shifted than those observed in most carbene gold( i ) complexes, but falls in the range expected for transition metal carbone complexes. 51 Single crystal X-ray analysis performed on the orange crystals of 5a revealed a lithium aurate complex (Fig. 4c).…”

A boron, nitrogen-containing heterocyclic carbene (BNC) as a redox active ligand: synthesis and characterization of a lithium BNC-aurate complex

“…The free CBA 6b could not be obtained, but only the cationic 6bH + and 6bH 2 2+ are known and used as starting compounds for the syntheses of the related transition metal complexes [80].…”

“…The cod ligand can be replaced by bubbling CO through solutions of 6a-MCl(cod) to produce the related 6a-MCl(CO) 2 compounds (see Scheme 14) [79]. Transition metal complexes with 6b as ligand were obtained by reacting 1,1,2,4-tetrapiperidino-1-buten-3-yne with (a) [(tht)AuCl], (b) [RhCl(CO)2]2, and (c) [(NMe3)W(CO)5] during the reaction rearrangement of the starting buten-3-yne to 6b has occurred [80].…”

“…Stephan described the first carbodicarbene stabilized by flanking cyclopropylidenes, named carbodicyclopropylidene 7 (see Figure 9) [81]. Transition metal complexes with 6b as ligand were obtained by reacting 1,1,2,4-tetrapiperidino-1 -buten-3-yne with (a) [(tht)AuCl], (b) [RhCl(CO) 2 ] 2 , and (c) [(NMe 3 )W(CO) 5 ] during the reaction rearrangement of the starting buten-3-yne to 6b has occurred [80].…”

Carbones and Carbon Atom as Ligands in Transition Metal Complexes