2216-94-6Relevant articles and documents
On the synthesis of arylpropiolic acids and investigations towards the formation of vinyl chlorides by HCl addition during esterification reactions
Hapke, Marko,Kral, Karolin,Spannenberg, Anke
, p. 642 - 652 (2011)
The synthesis protocol for the preparation of different arylpropiolic acids using the Negishi reaction and the addition of HCl to the alkyne moiety of these acids in subsequent esterification reactions using SOCl2 was examined. Georg Thieme Verlag Stuttgart New York.
Facile Dehydration of Activated Ketones to Alkynes
Hendrickson, James B.,Hussoin, Md. Sajjat
, p. 217 - 218 (1989)
Ketones activated by β-carbonyl or phenyl groups are readily dehydrated to alkynes with (PhP(1+))2O, 2OTf(1-) and triethylamine in refluxing 1,2-dichloroethane.
Palladium-catalyzed coupling of alkynes with chloroformates to form alkynecarboxylic acid esters
Boettcher, Arnd,Becker, Heike,Brunner, Melanie,Preiss, Thomas,Henkelmann, Jochem,De Bakker, Christel,Gleiter, Rolf
, p. 3555 - 3556 (1999)
The preparation of alkynecarboxylic acid esters, which are versatile building blocks for the synthesis of heterocyclic compounds, is described by means of the, palladium-catalyzed coupling of alkynes with chloroformates for the first time. The Royal Society of Chemistry 1999.
Ball-Milling-Enabled Reactivity of Manganese Metal**
Bolt, Robert R. A.,Browne, Duncan L.,Howard, Joseph L.,Khan, Adam,Magri, Giuseppina,Morrill, Louis C.,Nicholson, William I.,Richards, Emma,Seastram, Alex C.
supporting information, p. 23128 - 23133 (2021/09/20)
Efforts to generate organomanganese reagents under ball-milling conditions have led to the serendipitous discovery that manganese metal can mediate the reductive dimerization of arylidene malonates. The newly uncovered process has been optimized and its mechanism explored using CV measurements, radical trapping experiments, EPR spectroscopy, and solution control reactions. This unique reactivity can also be translated to solution whereupon pre-milling of the manganese is required.
De Novo Construction of Substituted Terephthalates via Phosphine Catalyzed Domino Benzannulation Reactions
Wang, Dan,Lin, Junhui,Zhu, Yannan,Huang, You
supporting information, p. 1873 - 1877 (2021/02/16)
The robustness of phosphine catalysis enabling the domino benzannulation reactions of allenoates with enamines is described. A broad array of substituted terephthalates were delivered under simple and practical reaction conditions. Furthermore, the reaction could be carried out on a gram scale with higher yield, and various conversions of the terephthalate products demonstrate the versatility of this transformation. (Figure presented.).
Consecutive Three-Component Coupling-Addition Synthesis of β-Amino Enoates and 3-Hydroxypyrazoles via Ethyl 3-Arylpropiolates
Niedballa, Jonas,Reiss, Guido J.,Müller, Thomas J. J.
supporting information, p. 5019 - 5024 (2020/07/24)
Two consecutive three-component syntheses furnishing β-amino enoates or 3-hydroxypyrazoles based upon the Sonogashira alkynylation of aryl iodides and ethyl propiolate were established in mostly excellent yields. The ethyl 3-arylpropiolate intermediates are Michael systems which are suited for concatenation with conjugate addition or cyclocondensation giving access to libraries of 21 different β-amino enoates and 17 different 3-hydroxypyrazoles. The rotational barrier of β-pyrrolidino enoates was assessed by studying the coalescence of pyrrolidinyl protons in VT-NMR spectra of electronically different substituted derivatives showing that the electronic substituent effect on the aryl group does not affect the height of the rotational barrier. This indicates that the substituents are essentially oriented orthogonally to the plane of the β-pyrrolidino enoates.