Regiodivergent Ring-Opening Reaction of Trichloromethylcyclopropane Carboxylates

Abstract: Reagent-controlled regiodivergent ring-opening reactions of trichloromethylcyclopropane carboxylates have been developed. The regioselectivity of bond cleavage is completely controlled by the proper choice of silver salts; the treatment of trichloromethylcyclopropane with AgBF4 led to C2-C3 bond cleavage and fluorination to afford fluorinated β,γ-unsaturated ester with high stereoselectivity, while the reaction with AgOAc in THF gave a γ,δ-unsaturated ester through the reductive cleavage of the C1-C2 bond.

“…Under these conditions, the radical chain addition of SF 5 Cl across the double bond of 1a proceeded smoothly, with perfect control of the regioselectivity, and delivered a diastereomeric mixture of β-chloro­(pentafluorosulfanyl)­cyclopropanes 2a and 2′a in a 90:10 ratio (78%, 5 mmol scale experiment). Analysis of the 1 H NMR spectrum of 2a and 2′a indicated a similar vicinal coupling constant between cyclopropyl protons H1 and H3 in both diastereomers, thereby confirming that addition of the SF 5 radical occurred at the less substituted carbon (C1) of cyclopropene 1a on the face opposite to the ester moiety at C3, as observed in other radical additions to cyclopro­pen­oates. , The resulting rapidly interconverting cyclopropyl radical intermediates 3a and 3′a suffer from a steric interaction between the (CH 2 ) 2 OTBDPS substituent and the SF 5 group (at C1) or the ester moiety (at C3), respectively. However, the less stable invertomer 3a should undergo a faster chlorine atom transfer from SF 5 Cl ( trans to the sterically demanding SF 5 substituent at C1) compared to that of 3′a .…”

“…Despite the potential interest in them, SF 5 -substituted cyclopropanes are still unknown compounds to the best of our knowledge. To date, the most general and practical entry to SF 5 -aliphatic compounds remains the radical addition of SF 5 Cl to alkynes or alkenes using Et 3 B as the initiator (Scheme A). , Cyclopropenes are known to behave as radical acceptors, as illustrated by the hydrostannylation of cyclopropenone acetals, the addition of carbon-centered electrophilic radicals generated from xanthates to similar substrates or cyclopropene gem -dicarboxylates, the addition of the trichloromethyl radical to cyclopropenoates, and the more recently disclosed radical carbocyanation reaction (Scheme B) …”

Radical Addition of SF₅Cl to Cyclopropenes: Synthesis of (Pentafluorosulfanyl)cyclopropanes

“…Under these conditions, the radical chain addition of SF 5 Cl across the double bond of 1a proceeded smoothly, with perfect control of the regioselectivity, and delivered a diastereomeric mixture of β-chloro­(pentafluorosulfanyl)­cyclopropanes 2a and 2′a in a 90:10 ratio (78%, 5 mmol scale experiment). Analysis of the 1 H NMR spectrum of 2a and 2′a indicated a similar vicinal coupling constant between cyclopropyl protons H1 and H3 in both diastereomers, thereby confirming that addition of the SF 5 radical occurred at the less substituted carbon (C1) of cyclopropene 1a on the face opposite to the ester moiety at C3, as observed in other radical additions to cyclopro­pen­oates. , The resulting rapidly interconverting cyclopropyl radical intermediates 3a and 3′a suffer from a steric interaction between the (CH 2 ) 2 OTBDPS substituent and the SF 5 group (at C1) or the ester moiety (at C3), respectively. However, the less stable invertomer 3a should undergo a faster chlorine atom transfer from SF 5 Cl ( trans to the sterically demanding SF 5 substituent at C1) compared to that of 3′a .…”

“…Despite the potential interest in them, SF 5 -substituted cyclopropanes are still unknown compounds to the best of our knowledge. To date, the most general and practical entry to SF 5 -aliphatic compounds remains the radical addition of SF 5 Cl to alkynes or alkenes using Et 3 B as the initiator (Scheme A). , Cyclopropenes are known to behave as radical acceptors, as illustrated by the hydrostannylation of cyclopropenone acetals, the addition of carbon-centered electrophilic radicals generated from xanthates to similar substrates or cyclopropene gem -dicarboxylates, the addition of the trichloromethyl radical to cyclopropenoates, and the more recently disclosed radical carbocyanation reaction (Scheme B) …”

Radical Addition of SF₅Cl to Cyclopropenes: Synthesis of (Pentafluorosulfanyl)cyclopropanes

“…Trichloromethylcyclopropanes 1a , b , d – g , 1i , and 1j were prepared according to literature procedures . For the synthesis of trichloromethylcyclopropane 1c and 1h , see the Supporting Information.…”

“…We recently reported the fluorinative and reductive ring‐opening reactions of trichloromethylcyclopropanes, which involve the silver‐promoted elimination of chloride from a trichloromethyl group triggering the ring‐opening of a cyclopropane ring . Unfortunately, this reaction is not atom‐economic, as it is stoichiometric in silver and proceeds with the loss of chlorine from the substrate.…”

Regiodivergent Chlorine‐Atom‐Transfer Ring‐Opening Reactions of Trichloromethylcyclopropanes

“…Also recently, Ueda showed that AgOAc in THF was able to generate radicals to cyclize trichloroacetamide 1c to afford γ-lactam 76c in moderate yield (Scheme 57). 72 It was shown that Ag(I) was reduced to Ag(0), which would act as a radical initiator, and THF was again assumed to be the proton source.…”

Radical Cyclization of Trichloroacetamides: Synthesis of Lactams