Unified Approach to Furan Natural Products via Phosphine‐Palladium Catalysis

Abstract: Polyalkyl furans are widespread in nature,o ften performing important biological roles.D espite ap lethora of methods for the synthesis of tetrasubstituted furans,t he construction of tetraalkylf urans remains non-trivial. The prevalence of alkylgroups in bioactive furan natural products, combined with the desirable bioactivities of tetraalkylf urans, calls for ageneral synthetic protocol for polyalkylfurans.This paper describes aM ichael-Heck approach, using sequential phosphine-palladium catalysis,f or the p… Show more

“…6,7 These valuable tetrasubstituted furan derivatives can be synthesized by two methods: one is the functionalization of existing furan rings, 8,9 and the other is the cyclization of acyclic substrates to construct furan rings. [10][11][12][13][14] Although the functionalization of furans seems to be an attractive approach, significant challenges remain in terms of reaction scope and chemoselectivity. The classical synthesis methods for tetrasubstituted furans include Paal-Knorr cyclocondensation (from 1,4-dicarbonyl compounds) 15,16 and Feist-Bénary cyclocondensation (from α-haloketones and β-dicarbonyl compounds).…”

Electrochemically-mediated C–H functionalization of allenes and 1,3-dicarbonyl compounds to construct tetrasubstituted furans

“…6,7 These valuable tetrasubstituted furan derivatives can be synthesized by two methods: one is the functionalization of existing furan rings, 8,9 and the other is the cyclization of acyclic substrates to construct furan rings. [10][11][12][13][14] Although the functionalization of furans seems to be an attractive approach, significant challenges remain in terms of reaction scope and chemoselectivity. The classical synthesis methods for tetrasubstituted furans include Paal-Knorr cyclocondensation (from 1,4-dicarbonyl compounds) 15,16 and Feist-Bénary cyclocondensation (from α-haloketones and β-dicarbonyl compounds).…”

Electrochemically-mediated C–H functionalization of allenes and 1,3-dicarbonyl compounds to construct tetrasubstituted furans

“…These platform chemicals can be easily transformed into value-added chemicals, such as 2-methylfuran, 2,5dimethylfuran, and other furans via chemical conversions or fermentation [4][5][6]. Since aromatic heterocycle furans are present in a variety of chiral natural products, pharmaceuticals, and other intermediates, a plethora of enantioselective methodologies has been developed for the synthetic community [7][8][9]. The important strategies are given as follows-(i) enantioselective cyclization reactions including cycloadditions using furans as the 4π diene component and cyclopropanation between furan and diazoester to obtain various valuable chiral synthons (Section 2); (ii) enantioselective Friedel-Crafts cycloadditions for the fabrication of carboncarbon bonds between furans and electron-deficient alkenes, yielding chiral centers at the α-orβ-position of furans (Section 3); (iii) various enantioselective nucleophilic addition reactions of furfural as an electrophile for the construction of chiral hydroxyl functional groups (Section 4).…”

Catalytic Enantioselective Reactions of Biomass-Derived Furans

“…However, the preparation of functionalized allyl-4-pyrones has large challenge under metal-free condition, possibly due to the lack of suitable substrates. Inspired by the reaction of ynones with allylic alcohols and our successful transitions of ynones, we envisioned that 3-allyl-4-pyrones may be easily prepared from diynones and allylic alcohols through a tandem cyclization reaction under metal-free condition (Scheme d). Herein, we first reported a simple and efficient synthesis of 3-allyl-4-pyrones from diynones and allylic alcohols with high regioselectivity, broad substrate tolerance, and atom economy under metal-free condition.…”

Phosphine-Catalyzed Synthesis of 3-Allyl-4-pyrones by the Tandem Reaction of Diynones and Allylic Alcohols