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Anti-Markovnikov behaviour is observed in the hydration of phenylacetylene by auric catalysis, which gives acetophenone; although with a special ruthenium catalyst [8] it provides the other regioisomer 2-phenylacetaldehyde: [9] Anti-Markovnikov hydration. Anti-Markovnikov behavior can also manifest itself in certain rearrangement reactions.
The mode of addition is anti-Markovnikov. The radical intermediate can engage in secondary reactions such as cyclisation. [9] [10] With diaddition the 1,2-disulfide or the 1,1- dithioacetal forms. Reported catalysts for radical additions are triethylborane, [11] indium(III) bromide [12] and AIBN. [13]
Morris Selig Kharasch (August 24, 1895 – October 9, 1957) was a pioneering organic chemist best known for his work with free radical additions and polymerizations.He defined the peroxide effect, explaining how an anti-Markovnikov orientation could be achieved via free radical addition. [1]
The radical then propagates with an ene functional group via an anti-Markovnikov addition to form a carbon-centered radical. A chain-transfer step removes a hydrogen radical from a thiol, which can subsequently participate in multiple propagation steps. [4]
[3]: 188, 751 The result is typically anti-Markovnikov addition, a phenomenon Morris Kharasch called the "peroxide effect". [4] Reaction is slower with alkynes than alkenes. [3]: 750 In the paradigmatic example, hydrogen bromide radicalyzes to monatomic bromine. These bromine atoms add to an alkene at the most accessible site, to give a ...
Anti-Markovnikov selectivity is also observed in styrenyl substrates (i.e. Figure 3, C), [39] presumably via η 4-palladium-styrene complex after water attacks anti-Markovnikov. More examples of substrate-controlled, anti-Markovnikov Tsuji-Wacker Oxidation of olefins are given in reviews by Namboothiri, [40] Feringa, [36] and Muzart. [41]
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Hydrosilylation of alkenes usually proceeds via anti-Markovnikov addition, i.e., silicon is placed at the terminal carbon when hydrosilylating a terminal alkene; [1] however, in the recent years, Markovnikov addition has become a growing field of research. [4]