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Experiments on a simulation of the photochemical A/D-secocorrin leads to corrin cyclo-isomerization by redox processes. Electrochemical oxidation of nickel(II)-1-methylidene-2,2,7,7,12,12-hexamethyl-15-cyano-1,19-secocorrinate perchlorate (author's transl)]
Authors:Bernhard Krutler  Andreas Pfaltz  Ren Nordmann  Keith O Hodgson  Jack D Dunitz  Albert Eschenmoser
Institution:Bernhard Kräutler,Andreas Pfaltz,René Nordmann,Keith O. Hodgson,Jack D. Dunitz,Albert Eschenmoser
Abstract:Experiments on a simulation of the photochemical A/D-secocorrin → corrin cycloisomerization by redox processes. Electrochemical oxidation of nickel(II)-1-methylidene-2,2,7,7,12,12-hexamethyl-15-cyano-1,19-secocorrinate perchlorate Can the act of light excitation in the photochemical A/D-secocorrin → corrin cycloisomerization be replaced by redox reactions in the dark? Electrochemical oxidation of nickel(II)-A/D-secocorrinate 4 in acetonitrile containing a trace of water produces the secocorrinoxide–nickel-complex 5 (structure determined by X-ray analysis) in almost quantitative yield. This two-electron oxidation involves a hydrogen shift from the methylene group C(19) in ring D to the methylidene carbon atom at ring A in the radical cation intermediate. Since the same type of hydrogen shift occurs in the photochemical A/D-secocorrin → corrin cycloisomerization, a close parallelism in their chemical reactivity seems to exist between electronically excited A/D-secocorrins and corresponding radical cations. Formation of the corrin complex 2 (M = Ni+) could be achieved (so far only in modest yields) by electrochemical one-electron oxidation of 4 in acetonitrile/acetanhydride/acetic acid 8:1:1 followed by one-electron reduction. – The transformation of the oxide nickel complex 5 to the corrinoid complex 10 – a new member in the family of dehydrocorrins – is also recorded.
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