19398-89-1Relevant articles and documents
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Baba,S. et al.
, p. 1927 - 1930 (1976)
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Catalytic, oxidant-free, direct olefination of alcohols using Wittig reagents
Khaskin,Milstein
supporting information, p. 9002 - 9005 (2015/05/27)
Reported here is the catalytic, acceptorless coupling of alcohols with in situ generated, non-stabilized phosphonium ylides to form olefins as major products. The reaction uses low catalyst loadings and does not require added oxidants. Hydrogenation of the product is minimized and the reaction leads to Z (aliphatic) or E (benzylic) stereospecificity.
A selective Ru-catalyzed semireduction of alkynes to Z olefins under transfer-hydrogenation conditions
Belger, Christian,Neisius, N. Matthias,Plietker, Bernd
supporting information; experimental part, p. 12214 - 12220 (2011/03/17)
By using a readily available, air- and moisture-stable dihydrido-Ru complex, a variety of Z olefins are accessible under transfer-hydrogenation conditions with formic acid as the hydrogen source in excellent yields and Z/E selectivities. A discerning transformation: Z-Configured C=C bonds are stereoselectively formed from alkynes in the presence of a Ru catalyst with formic acid as the sole H2 source at room temperature (see scheme). A variety of functional groups are compatible with this novel procedure. Operational simplicity and the lack of overreduction products are characteristics for this unprecedented process.
METHOD FOR ISOMERIZING ORGANIC COMPOUND
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Page/Page column 7-8, (2008/06/13)
PROBLEM TO BE SOLVED: To provide a method for isomerizing a compound bearing a hydrocarbon group having a carbon-carbon double bond which permits transfer of the carbon-carbon double bond of the compound without using a catalyst or an organic solvent. SOLUTION: The method for isomerizing the compound comprises transferring the position of the carbon-carbon double bond by causing the compound bearing the hydrocarbon group having the carbon-carbon double bond to non-catalytically react in a reaction medium in a high-temperature and high-pressure state. Thus, the isomer having the double bond transferred is obtained in a short time in one step by pressing the compound bearing the hydrocarbon group having the carbon-carbon double bond into high-temperature high-pressure water as a reaction site at a high speed. Neither waste nor wastewater to dispose of is discharged from the manufacturing processes.