1235-98-9Relevant articles and documents
Ruzicka,Mueller
, p. 755,757 (1939)
Method for catalytically reducing alkynes into olefins through visible light induction
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Paragraph 0051-0054, (2020/03/09)
The invention discloses a method for catalytically reducing alkynes into olefins through visible light induction. The method can avoid generation of over-reduced alkane products and the highest yieldis 99%. The method comprises the following steps: by taking an alkyne as a raw material, adding a photosensitizer and a cobalt catalyst, then adding a phosphine ligand or bipyridine ligand, an electronic sacrificial reagent, acetic acid and an organic solvent under inert gas protection, and irradiating with blue light at room temperature for 7-14 hours; and after the reaction is finished, spin-drying an obtained reaction solution, and carrying out silica gel column chromatography separation to obtain an olefin product; wherein the organic solvent is 1, 4-dioxane or tetrahydrofuran, and the alkyne is an aliphatic alkyne or an aromatic alkyne. Reduction of alkyne is realized through a hydrogen transfer strategy, use of dangerous hydrogen is avoided, generation of overreduction products is avoided, reaction conditions are mild, the reaction yield is high, and the method has a good application prospect.
STEROID SPIROLACTONIZATION
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Page 138, (2008/06/13)
A steroid comprising a 17-spirolactone or corresponding open lactone structure is obtained by carbonylation of a 17-alkenyl or 17-alkynyl substrate. A 17-alkenyl intermediate may be prepared by semi-hydrogenation of a 17-alkynyl group. Multiple reaction schemes are disclosed for preparation of a 3-keto-9,11-epoxy-17-spirolactone steroid such as eplerenone. Novel intermediates are also disclosed, as well as steps for forming such novel intermediates, or converting them to further intermediates or products, by semi-hydrogenation, carbonylation, 6,7-dehydrogenation, furylation or other transformations or combinations thereof.