Chemistry of acetylenic ethers 87: Preparation of cumulenyl ethers by 1,4-elimination

## Abstract Acetylenic ethers of the types RCH~2~CCCH~2~OR′ and RCH~2~CH~2~CCOR′ have been converted into alkenynylides RCHCHCCNa and alkoxides R′ONa by treatment with two moles of sodamide in liquid ammonia.

## Abstract A number of di‐(alk‐1‐ynyl) thioethers VIII have been synthesized using reaction scheme 1. Except for diethynyl ether VI the compounds are relatively stable. Reaction scheme 2 has been used to synthesize di‐(prop‐1‐ynyl) ether, a substance exploding at room temperature. An attempt to p

## Abstract Aldehydes can be converted into 1‐alkylthio‐1‐alkenes II (thioenol ethers) __via__ either α‐chlorothioethers I by elimination of hydrogen chloride or, better, thioacetals VI by acid catalysed elimination of thiol. Bromination of the thioenol ethers II followed by subsequent dehydrobromi

## Abstract The compounds mentioned in the title are obtained conveniently from aldehydes as outlined in the reaction schemes on this and on the following page.

## Abstract A method is described for converting ethoxyethynylcarbinols I into α‐ketols V, via the intermediate products II to IV inclusive. The synthesis occurs stereospecifically and, starting from the ethoxy‐ethynylcarbinol VII, derived from 3β‐acetoxyandrost‐5‐en‐17‐one VI, affords almost exclu