Project description:The first catalytic, highly C3-selective, stereosepecific ring-opening reaction of 2,3-epoxy alcohols and 2,3-epoxy sulfonamides has been accomplished. This process was efficiently promoted by W-salts, and the developed method was applicable to various epoxides with diverse N- and O-nucleophiles affording the products in good to excellent yields (up to 95%) and generally with high regioselectivities (C3:C2 up to >99:1).

Project description:A catalytic enantioselective method for the formation of alkyne-substituted all-carbon quaternary stereogenic centers is reported. Additions of alkynylaluminums to alkyl-, aryl-, carboxylic ester-, or silyl-substituted allylic phosphates are promoted by 1.0-5.0 mol % loadings of NHC-Cu complexes derived from air-stable and commercially available CuCl(2)·2H(2)O. The requisite Al-based reagents are prepared through treatment of the corresponding aryl-, heteroaryl-, alkyl-, or alkenyl-substituted terminal alkynes with diisobutylaluminum hydride in the presence of 5.0 mol % Et(3)N at ambient temperature. The desired 1,4-enynes are obtained in up to 98% yield and >99:1 enantiomeric ratio. Selected Au-catalyzed cyclizations involving the alkyne unit of the enantiomerically enriched products are presented as a demonstration of the method's utility in chemical synthesis.

Project description:In this paper, the ring-opening reaction of 2,5-dioctyldithieno[2,3-b:3',2'-d]thiophene with aryllithium in THF at low temperature to generate 2'-arylthio-3,3'-bithiophene-2-carbaldehydes is studied. Nine examples are explored and all the products are characterized by (1)H NMR, (13)C NMR and HRMS. The relative relationship between the structures of aryl groups and the efficiency of ring-opening reactions are discussed.

Project description:Ethynylbenziodoxol(on)e (EBX) cyclic hypervalent iodine reagents have become popular reagents for the alkynylation of radicals and nucleophiles, but only offer limited possibilities for further structure and reactivity fine-tuning. Herein, the synthesis of new N-heterocyclic hypervalent iodine reagents with increased structural flexibility based on amide, amidine and sulfoximine scaffolds is reported. Solid-state structures of the reagents are reported and the analysis of the I-Calkyne bond lengths allowed assessing the trans-effect of the different substituents. Molecular electrostatic potential (MEP) maps of the reagents, derived from DFT computations, revealed less pronounced σ-hole regions for sulfonamide-based compounds. Most reagents reacted well in the alkynylation of β-ketoesters. The alkynylation of thiols afforded more variable yields, with compounds with a stronger σ-hole reacting better. In metal-mediated transformations, the N-heterocyclic hypervalent iodine reagents gave inferior results when compared to the O-based EBX reagents.

Project description:A highly atroposelective (up to 97?% ee) Au-catalyzed synthesis of 1,1'-binaphthalene-2,3'-diols is reported starting from a range of substituted benzyl alkynones. Essential for the achievement of high enantioselectivity during the key assembly of the naphto-3-ol unit is the use of TADDOL-derived ?-cationic phosphonites as ancillary ligands. Preliminary results demonstrate that the transformation of the obtained binaphthyls into axially chiral monodentate phosphines is possible without degradation of enantiopurity.

Project description:The asymmetric unit of the title compound, C(4)H(4)Br(2)O(2), contains one half-mol-ecule, being located about a centre of inversion. In the crystal, there are no significant inter-molecular inter-actions.

Project description:In the title compound (r.m.s. deviation for the non-H atoms = 0.020?Å), C(10)H(6)Br(2)O(2), an intra-molecular O-H?O hydrogen bond generates an S(6) ring. In the crystal, the same H atom also forms an inter-molecular O-H?O hydrogen bond, generating a C(2) chain propagating in [100]. The other O-H hydrogen forms a weak O-H?? inter-action, and short Br?Br contacts [3.5972?(9)?Å] also occur.

Project description:The achiral planar (maximum deviation 0.014?Å) title compound, C(10)H(6)Cl(2)O(2), crystallizes in the chiral space group P2(1)2(1)2(1) in an arrangement incorporating conventional O-H?O hydrogen bonding leading to a supra-molecular chain.

Project description:The achiral title compound, C(6)H(4)Cl(2)O(2), crystallizes with O-H⋯O hydrogen bonding linking mol-ecules into layers. Between layers there are chains of Cl⋯Cl⋯Cl inter-actions with alternating distances of 3.274 (2) and 3.742 (2) Å. Augmenting this arrangement there are also C-H⋯Cl (2.97 and 3.17 Å) and Cl⋯π (shortest distances 3.40 and 3.54 Å) inter-actions.

Project description:The asymmetric unit of the title compound, C(10)H(14)N(4)·C(6)H(6)O(3)·H(2)O, contains one mol-ecule of benzene-1,3,5-triol, two half-molecules of 1,1'-butane-1,4-diyldi-1H-imidazole (each molecule is centrosymmetric) and one solvent water mol-ecule. In the crystal structure, inter-molecular O-H⋯O and O-H⋯N hydrogen bonds link all mol-ecules into a three-dimensional supra-molecular network.