Highly Strained Heterocycles Constructed from Boron–Boron Multiple Bonds and Heavy Chalcogens

Abstract: Abstract:The reactions of a diborene with elemental selenium or tellurium are shown to afford a diboraselenirane or diboratellurirane, respectively. These reactions are reminiscent of the sequestration of sub-valent oxygen and nitrogen in the formation of oxiranes and aziridines; however, such reactivity is not known between alkenes and the heavy chalcogens. While carbon is too electronegative to affect the reduction of elements of lower relative electronegativity, the highly reducing nature of the B=B double … Show more

“…In contrast, the oxidation of the dppm-stabilized cis-diborene 54 b occurs at much higher potential [E 1/2 = À0.51 V],i mplying ac onsiderably less-electron-rich system. [101] TheB À B bonds were lengthened with respect to the diborene starting materials,but nonetheless shorter than typical single bonds in base-stabilized diboranes [70 a 1.707(3) ; 70 b 1.713(5) ], following the pattern observed for related carbon C 2 E analogues such as thiiranes.T he fact that these compounds are stable,w hereas none of the few reported carbon-based seleniranes has been structurally characterized, and telluriranes are unknown, is ascribed to the lower electronegativity of boron and the higher reducing power of diborenes as compared to alkenes. [65] As well as being oxidized by [C 7 H 7 ][BAr [99] Thes ame reaction in the presence of dimethyldisulfide provided the corresponding trisulfadiborolane.T he plausibility of this mechanism was recently established by our group,byobtaining arelated 5-membered heterocycle,c ompound 69,b yt he insertion of elemental sulfur into isolated diborene 49 b,w hich represents af ourelectron oxidation of the diborene fragment (Scheme 18 b).…”

“…[101] Ap roposed nucleophilic attack of the BBu nit at one tellurium atom was found to yield ionic species containing ac ationic,t hree-membered diboraphenyltellurirenium moiety with an aryltelluride counterion (76 a,b;S cheme 21). [101] Ap roposed nucleophilic attack of the BBu nit at one tellurium atom was found to yield ionic species containing ac ationic,t hree-membered diboraphenyltellurirenium moiety with an aryltelluride counterion (76 a,b;S cheme 21).…”

Formation and Reactivity of Electron‐Precise B−B Single and Multiple Bonds

“…In contrast, the oxidation of the dppm-stabilized cis-diborene 54 b occurs at much higher potential [E 1/2 = À0.51 V],i mplying ac onsiderably less-electron-rich system. [101] TheB À B bonds were lengthened with respect to the diborene starting materials,but nonetheless shorter than typical single bonds in base-stabilized diboranes [70 a 1.707(3) ; 70 b 1.713(5) ], following the pattern observed for related carbon C 2 E analogues such as thiiranes.T he fact that these compounds are stable,w hereas none of the few reported carbon-based seleniranes has been structurally characterized, and telluriranes are unknown, is ascribed to the lower electronegativity of boron and the higher reducing power of diborenes as compared to alkenes. [65] As well as being oxidized by [C 7 H 7 ][BAr [99] Thes ame reaction in the presence of dimethyldisulfide provided the corresponding trisulfadiborolane.T he plausibility of this mechanism was recently established by our group,byobtaining arelated 5-membered heterocycle,c ompound 69,b yt he insertion of elemental sulfur into isolated diborene 49 b,w hich represents af ourelectron oxidation of the diborene fragment (Scheme 18 b).…”

“…[101] Ap roposed nucleophilic attack of the BBu nit at one tellurium atom was found to yield ionic species containing ac ationic,t hree-membered diboraphenyltellurirenium moiety with an aryltelluride counterion (76 a,b;S cheme 21). [101] Ap roposed nucleophilic attack of the BBu nit at one tellurium atom was found to yield ionic species containing ac ationic,t hree-membered diboraphenyltellurirenium moiety with an aryltelluride counterion (76 a,b;S cheme 21).…”

Formation and Reactivity of Electron‐Precise B−B Single and Multiple Bonds

“…Telluriranium salts are so far completely unknown. Here, we note the synthesis of boron–chalcogen three‐membered ring compounds: diboraseleniranes, diboratelluriranes, and diboratellurirenium salts …”

Seleniranium and Telluriranium Salts

“…[1] As ar esult, diborenes, unlike alkenes, are excellent reducinga gents, capable of acting as either i) four-electron reducinga gents towards elemental sulfur,b yf ully cleaving the B=Bd ouble bond and forming aB 2 S 3 heterocycle, [19] or ii)t woelectron reducing agentst owards the heaviere lemental chalcogens by forming three-membered B 2 Er ings (E=Se, Te ), [20] or even iii)o ne-electronr educing agents towards the tropylium cation and 1-mesityl-2,3,4,5-tetraphenylborole (MesBC 4 Ph 4 )t o form diborene radical cations. [10], [11] The substitution pattern of the diborene core plays as ignificant role in tuning this redox reactivity (Figure 2).…”

Increasing the Reactivity of Diborenes: Derivatization of NHC‐Supported Dithienyldiborenes with Electron‐Donor Groups