574747-52-7Relevant articles and documents
Ruthenium-catalyzed cycloadditions of 1-haloalkynes with nitrile oxides and organic azides: Synthesis of 4-haloisoxazoles and 5-halotriazoles
Oakdale, James S.,Sit, Rakesh K.,Fokin, Valery V.
, p. 11101 - 11110,10 (2014)
(Cyclopentadienyl)(cyclooctadiene) ruthenium(II) chloride [CpRuCl(cod)] catalyzes the reaction between nitrile oxides and electronically deficient 1-choro-, 1-bromo-, and 1-iodoalkynes leading to 4-haloisoxazoles. Organic azides are also suitable 1,3-dipoles, resulting in 5-halo-1,2,3-triazoles. These air-tolerant reactions can be performed at room temperature with 1.25 equivalents of the respective 1,3-dipole relative to the alkyne component. Reactive 1-haloalkynes include propiolic amides, esters, ketones, and phosphonates. Post-functionalization of the halogenated azole products can be accomplished by using palladium-catalyzed cross-coupling reactions and by manipulation of reactive amide groups. The lack of catalysis observed with [Cp RuCl(cod)] (Cp=pentamethylcyclopentadienyl) is attributed to steric demands of the Cp* (η5-C5Me5) ligand in comparison to the parent Cp (η5-C5H5). This hypothesis is supported by the poor reactivity of [(η5-C 5Me4CF3)RuCl(cod)], which serves as a an isosteric mimic of Cp* and as an isoelectronic analogue of Cp.
Synthesis, self-assembly, and switching of one-dimensional nanostructures from new crowded aromatics
Bushey, Mark L.,Nguyen, Thuc-Quyen,Nuckolls, Colin
, p. 8264 - 8269 (2007/10/03)
This study outlines a versatile and expeditious synthesis of the first derivatives of a new class of benzene that is substituted with both three amide and three alkyne substituents. Sparsely covered monolayer films, made through spin-casting, reveal one-d
