Chromium and manganese carbonyl π-complexes of 2-benzylpyrrole and 2-phenylpyrrole. Spectra and electronic effects

“…1 H NMR spectra revealed that the reactions were complete. The observed product distributions were as follows: In pyrrole: 20% benzyl benzoate (δ 5.23), 50% 2-benzylpyrrole (δ 3.74),21a and 30% 3-benzylpyrrole (δ 3.71) 21a (Table ). In N -methylpyrrole: 32% benzyl benzoate, 33% 2-benzyl- N -methylpyrrole (δ 3.88),21b and 35% 3-benzyl- N -methylpyrrole (δ 3.80) 21c…”

“…The tube was cooled in liquid nitrogen and evacuated at oil pump pressure; it was sealed and incubated at 40 °C. Decomposition was complete in 3 days; the relative yields of products were 38% 2-benzylpyrrole (δ 3.74),21a 21% 3-benzylpyrrole (δ 3.71),21a and 41% benzyl benzoate (δ 5.22). The solution was divided into two parts, and one part was concentrated by evaporation of the solvent using a gentle stream of N 2 gas.…”

“…The chemical shifts thus obtained agreed very well with the literature values for the 2- and 3-benzylpyrroles in CCl 4 : δ obs for 2-benzylpyrrole = 3.77 (δ lit. = 3.78);21a δ obs for 3-benzylpyrrole = 3.73 (δ lit. = 3.70) 21a.…”

“…= 3.78);21a δ obs for 3-benzylpyrrole = 3.73 (δ lit. = 3.70) 21a. No N -benzylpyrrole was observed (absence of signal at δ 4.87) …”

The Direct Alkylation of π-Rich, Acid-Sensitive Heterocyclic Compounds via Essentially Free Carbocations¹

“…1 H NMR spectra revealed that the reactions were complete. The observed product distributions were as follows: In pyrrole: 20% benzyl benzoate (δ 5.23), 50% 2-benzylpyrrole (δ 3.74),21a and 30% 3-benzylpyrrole (δ 3.71) 21a (Table ). In N -methylpyrrole: 32% benzyl benzoate, 33% 2-benzyl- N -methylpyrrole (δ 3.88),21b and 35% 3-benzyl- N -methylpyrrole (δ 3.80) 21c…”

“…The tube was cooled in liquid nitrogen and evacuated at oil pump pressure; it was sealed and incubated at 40 °C. Decomposition was complete in 3 days; the relative yields of products were 38% 2-benzylpyrrole (δ 3.74),21a 21% 3-benzylpyrrole (δ 3.71),21a and 41% benzyl benzoate (δ 5.22). The solution was divided into two parts, and one part was concentrated by evaporation of the solvent using a gentle stream of N 2 gas.…”

“…The chemical shifts thus obtained agreed very well with the literature values for the 2- and 3-benzylpyrroles in CCl 4 : δ obs for 2-benzylpyrrole = 3.77 (δ lit. = 3.78);21a δ obs for 3-benzylpyrrole = 3.73 (δ lit. = 3.70) 21a.…”

“…= 3.78);21a δ obs for 3-benzylpyrrole = 3.73 (δ lit. = 3.70) 21a. No N -benzylpyrrole was observed (absence of signal at δ 4.87) …”

The Direct Alkylation of π-Rich, Acid-Sensitive Heterocyclic Compounds via Essentially Free Carbocations¹

“…Because of the efficiency of the reactions with lithium borohydride and sodium cyanoborohydride in THF these procedures were also applied to the preparation of the tetrasubstituted pyrroles (5e-h). The yields obtained [Table 6, entries [9][10][11][12][13][14][15][16] show an improvement on those obtained in the sodium borohydride-reduction in THF-ethyl acetate (Table 2). However, the yields are sufficiently high in the latter reaction for it to be satisfactory for use in large-scale preparations.…”

A general method for the preparation of 2-benzylpyrroles by modified borohydride reduction of azafulvenium salts

ChemInform Abstract: CHROM‐ UND MANGANCARBONYL‐PI‐KOMPLEXE VON 2‐BENZYL‐ UND 2‐PHENYLPYRROL, SPEKTREN UND ELEKTRONISCHE EFFEKTE