Comparative investigations of cp*-based group 9 metal-catalyzed direct C-H amination of benzamides

Travis M. Figg; Sehoon Park; Juhyeon Park; Sukbok Chang; Djamaladdin G. Musaev

doi:10.1021/om5005868

Comparative investigations of cp*-based group 9 metal-catalyzed direct C-H amination of benzamides

Travis M. Figg, Sehoon Park, Juhyeon Park, Sukbok Chang^*, Djamaladdin G. Musaev

^*Corresponding author for this work

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

104 Scopus citations

Abstract

Key mechanistic features of the [Cp*MCl₂]₂ (M = Ir, Rh, Co; all are in group 9) catalyzed C-H amination of benzamides with organic azides were investigated with a strong emphasis on the metal effects on the reaction mechanism, revealing that the Rh- and Ir-catalyzed reactions follow a similar reaction profile, albeit with different individual kinetic and thermodynamic parameters. The observation that the Ir-based system was much superior in terms of the rates and efficiency in comparison to Rh was attributed to the intrinsically strong relativistic effects in iridium. While a cobalt system [Cp*Co^III] showed little catalytic activity for most azides examined, plausible [(BA)(Cp*)CoNR]⁺ intermediates of these reactions were characterized as a 'Co(III)-nitrenoid radical' species with a weak ('one electron-two center type') Co-NPh bond. Its Rh and Ir analogues are characterized as diamagnetic metal nitrenoids with a strong M=NR double bond. The provided experimental and computational investigations indicate that the rate-limiting step of the reaction resides in the final stage (protodemetalation) that takes place via a concerted metalation-deprotonation (CMD) mechanism. While experimental measurements of thermodynamic parameters were in good agreement with DFT calculations, theoretical predictions on the electronic nature of key intermediates and energy barriers were successfully used to rationalize the experimentally observed reactivity pattern.

Original language	English
Pages (from-to)	4076-4085
Number of pages	10
Journal	Organometallics
Volume	33
Issue number	15
DOIs	https://doi.org/10.1021/om5005868
State	Published - 11 Aug 2014
Externally published	Yes

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title = "Comparative investigations of cp*-based group 9 metal-catalyzed direct C-H amination of benzamides",

abstract = "Key mechanistic features of the [Cp*MCl2]2 (M = Ir, Rh, Co; all are in group 9) catalyzed C-H amination of benzamides with organic azides were investigated with a strong emphasis on the metal effects on the reaction mechanism, revealing that the Rh- and Ir-catalyzed reactions follow a similar reaction profile, albeit with different individual kinetic and thermodynamic parameters. The observation that the Ir-based system was much superior in terms of the rates and efficiency in comparison to Rh was attributed to the intrinsically strong relativistic effects in iridium. While a cobalt system [Cp*CoIII] showed little catalytic activity for most azides examined, plausible [(BA)(Cp*)CoNR]+ intermediates of these reactions were characterized as a 'Co(III)-nitrenoid radical' species with a weak ('one electron-two center type') Co-NPh bond. Its Rh and Ir analogues are characterized as diamagnetic metal nitrenoids with a strong M=NR double bond. The provided experimental and computational investigations indicate that the rate-limiting step of the reaction resides in the final stage (protodemetalation) that takes place via a concerted metalation-deprotonation (CMD) mechanism. While experimental measurements of thermodynamic parameters were in good agreement with DFT calculations, theoretical predictions on the electronic nature of key intermediates and energy barriers were successfully used to rationalize the experimentally observed reactivity pattern.",

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AU - Chang, Sukbok

AU - Musaev, Djamaladdin G.

PY - 2014/8/11

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N2 - Key mechanistic features of the [Cp*MCl2]2 (M = Ir, Rh, Co; all are in group 9) catalyzed C-H amination of benzamides with organic azides were investigated with a strong emphasis on the metal effects on the reaction mechanism, revealing that the Rh- and Ir-catalyzed reactions follow a similar reaction profile, albeit with different individual kinetic and thermodynamic parameters. The observation that the Ir-based system was much superior in terms of the rates and efficiency in comparison to Rh was attributed to the intrinsically strong relativistic effects in iridium. While a cobalt system [Cp*CoIII] showed little catalytic activity for most azides examined, plausible [(BA)(Cp*)CoNR]+ intermediates of these reactions were characterized as a 'Co(III)-nitrenoid radical' species with a weak ('one electron-two center type') Co-NPh bond. Its Rh and Ir analogues are characterized as diamagnetic metal nitrenoids with a strong M=NR double bond. The provided experimental and computational investigations indicate that the rate-limiting step of the reaction resides in the final stage (protodemetalation) that takes place via a concerted metalation-deprotonation (CMD) mechanism. While experimental measurements of thermodynamic parameters were in good agreement with DFT calculations, theoretical predictions on the electronic nature of key intermediates and energy barriers were successfully used to rationalize the experimentally observed reactivity pattern.

AB - Key mechanistic features of the [Cp*MCl2]2 (M = Ir, Rh, Co; all are in group 9) catalyzed C-H amination of benzamides with organic azides were investigated with a strong emphasis on the metal effects on the reaction mechanism, revealing that the Rh- and Ir-catalyzed reactions follow a similar reaction profile, albeit with different individual kinetic and thermodynamic parameters. The observation that the Ir-based system was much superior in terms of the rates and efficiency in comparison to Rh was attributed to the intrinsically strong relativistic effects in iridium. While a cobalt system [Cp*CoIII] showed little catalytic activity for most azides examined, plausible [(BA)(Cp*)CoNR]+ intermediates of these reactions were characterized as a 'Co(III)-nitrenoid radical' species with a weak ('one electron-two center type') Co-NPh bond. Its Rh and Ir analogues are characterized as diamagnetic metal nitrenoids with a strong M=NR double bond. The provided experimental and computational investigations indicate that the rate-limiting step of the reaction resides in the final stage (protodemetalation) that takes place via a concerted metalation-deprotonation (CMD) mechanism. While experimental measurements of thermodynamic parameters were in good agreement with DFT calculations, theoretical predictions on the electronic nature of key intermediates and energy barriers were successfully used to rationalize the experimentally observed reactivity pattern.

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Comparative investigations of cp*-based group 9 metal-catalyzed direct C-H amination of benzamides

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