Allenyl azide cycloaddition chemistry. 2,3-Cyclopentennelated indole synthesis through indolidene intermediates

Ken S. Feldman; D. Keith Hester; Malliga R. Iyer; Paul J. Munson; Carlos Silva López; Olalla Nieto Faza

doi:10.1021/jo900659w

Allenyl azide cycloaddition chemistry. 2,3-Cyclopentennelated indole synthesis through indolidene intermediates

Ken S. Feldman
, D. Keith Hester
, Malliga R. Iyer
, Paul J. Munson
, Carlos Silva López
, Olalla Nieto Faza

Chemistry

Research output: Contribution to journal › Article › peer-review

40 Scopus citations

Abstract

(Chemical Equation Presented) The thermal, photochemical, and photochemical/CuI-mediated cascade cyclizations of a range of substituted 1-(2-azidophenyl)-3-alkenylallenes are described. These reactions provide both 1,2- and 2,3-cyclopentennelated indole products in varying ratios. In most cases, high regioselectivity for the 2,3-annelated isomer can be achieved under the h?/CuI conditions. Computational studies of this multistep reaction support the intermediacy of indolidene intermediates whose electrocyclizations (with or without copper present) define the regioselectivity branch point in the sequence.

Original language	English (US)
Pages (from-to)	4958-4974
Number of pages	17
Journal	Journal of Organic Chemistry
Volume	74
Issue number	14
DOIs	https://doi.org/10.1021/jo900659w
State	Published - Jul 17 2009

All Science Journal Classification (ASJC) codes

Organic Chemistry

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10.1021/jo900659w

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title = "Allenyl azide cycloaddition chemistry. 2,3-Cyclopentennelated indole synthesis through indolidene intermediates",

abstract = "(Chemical Equation Presented) The thermal, photochemical, and photochemical/CuI-mediated cascade cyclizations of a range of substituted 1-(2-azidophenyl)-3-alkenylallenes are described. These reactions provide both 1,2- and 2,3-cyclopentennelated indole products in varying ratios. In most cases, high regioselectivity for the 2,3-annelated isomer can be achieved under the h?/CuI conditions. Computational studies of this multistep reaction support the intermediacy of indolidene intermediates whose electrocyclizations (with or without copper present) define the regioselectivity branch point in the sequence.",

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doi = "10.1021/jo900659w",

language = "English (US)",

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T1 - Allenyl azide cycloaddition chemistry. 2,3-Cyclopentennelated indole synthesis through indolidene intermediates

AU - Feldman, Ken S.

AU - Hester, D. Keith

AU - Iyer, Malliga R.

AU - Munson, Paul J.

AU - López, Carlos Silva

AU - Faza, Olalla Nieto

PY - 2009/7/17

Y1 - 2009/7/17

N2 - (Chemical Equation Presented) The thermal, photochemical, and photochemical/CuI-mediated cascade cyclizations of a range of substituted 1-(2-azidophenyl)-3-alkenylallenes are described. These reactions provide both 1,2- and 2,3-cyclopentennelated indole products in varying ratios. In most cases, high regioselectivity for the 2,3-annelated isomer can be achieved under the h?/CuI conditions. Computational studies of this multistep reaction support the intermediacy of indolidene intermediates whose electrocyclizations (with or without copper present) define the regioselectivity branch point in the sequence.

AB - (Chemical Equation Presented) The thermal, photochemical, and photochemical/CuI-mediated cascade cyclizations of a range of substituted 1-(2-azidophenyl)-3-alkenylallenes are described. These reactions provide both 1,2- and 2,3-cyclopentennelated indole products in varying ratios. In most cases, high regioselectivity for the 2,3-annelated isomer can be achieved under the h?/CuI conditions. Computational studies of this multistep reaction support the intermediacy of indolidene intermediates whose electrocyclizations (with or without copper present) define the regioselectivity branch point in the sequence.

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JO - Journal of Organic Chemistry

JF - Journal of Organic Chemistry

IS - 14

ER -

Allenyl azide cycloaddition chemistry. 2,3-Cyclopentennelated indole synthesis through indolidene intermediates

Abstract

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