153143-04-5Relevant articles and documents
Synthetic and mechanistic investigations on the rearrangement of 2,3-unsaturated 1,4-bis(alkylidene)carbenes to enediynes
Sahu, Bichismita,Muruganantham, Rajendran,Namboothiri, Irishi N. N.
, p. 2477 - 2489 (2008/03/13)
The synthesis of 3,4-ene-1,5-diynes, the key structural moiety present in several naturally occurring antitumor antibiotics, from 1,2-enedialdehydes under two different experimental conditions is reported. One method involves the dibromomethylenation of dialdehydes under Corey-Fuchs conditions (CBr 4, Ph3P, and Zn) and treatment of the resulting tetrabromides with nBuLi or LDA to afford enediynes. The second method involves a base-mediated reaction of enedialdehydes with diethyl (1-diazo-2-oxopropyl) phosphonate (Bestmann-Ohira reagent) and subsequent transformation of the bis(diazo) compounds generated in situ to enediynes. While the transformation of bis(diazo) compounds to enediynes could take place exclusively through alkylidene-carbenes, generated in situ by geminal elimination of N2, an alternative pathway, involving the vicinal elimination of HBr to afford an intermediate bromoalkyne and its subsequent metal-halogen exchange and protonation during workup, exists for the bis(dibromoalkylidenes). However, our deuterium-labeling experiments with a model substrate, deuterated p-methoxybenzylidene dibromide, established the predominance of the alkylidenecarbenes, generated in situ by metal-halogen exchange and elimination, for this substrate and, by analogy, for the tetrabromides as well. The scope of this novel methodology was extended to the synthesis of various heteroatom-based (S, Se, and P) enediynes by quenching the acetylides with suitable electrophiles. Wiley-VCH Verlag GmbH & Co. KGaA, 2007.
Electronic Structure of Ethynylthiophenes
Novak, Igor,Ng, Siu Choon,Fang, Jiye,Mok, Chup Yew,Huang, Hsing Hua
, p. 748 - 751 (2007/10/02)
He I and He II photoelectron spectra of all isomeric mono- and diethynylthiophenes were recorded.The electronic structure was analyzed and spectra assigned on the basis of empirical considerations and semiempirical MO calculations.The spectra indicate various interactions taking place between thiophene ? and ethynyl ? orbitals.The relationship between deduced electronic structure and formation of novel polymer materials is discussed.