An organophotocatalytic late-stage N-CH 3 oxidation of trialkylamines to N -formamides with O 2 in continuous flow
We report an organophotocatalytic, N-CH -selective oxidation of trialkylamines in continuous flow. Based on the 9,10-dicyanoanthracene (DCA) core, a new catalyst (DCAS) was designed with solubilizing groups for flow processing. This allowed O to be harnessed as a sustainable oxidant for late-stage p...
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| Veröffentlicht in: | Chemical science (Cambridge) 2022-02, Vol.13 (7), p.1912-1924 |
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| container_title | Chemical science (Cambridge) |
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| creator | Mandigma, Mark John P Žurauskas, Jonas MacGregor, Callum I Edwards, Lee J Shahin, Ahmed d'Heureuse, Ludwig Yip, Philip Birch, David J S Gruber, Thomas Heilmann, Jörg John, Matthew P Barham, Joshua P |
| description | We report an organophotocatalytic, N-CH
-selective oxidation of trialkylamines in continuous flow. Based on the 9,10-dicyanoanthracene (DCA) core, a new catalyst (DCAS) was designed with solubilizing groups for flow processing. This allowed O
to be harnessed as a sustainable oxidant for late-stage photocatalytic N-CH
oxidations of complex natural products and active pharmaceutical ingredients bearing functional groups not tolerated by previous methods. The organophotocatalytic gas-liquid flow process affords cleaner reactions than in batch mode, in short residence times of 13.5 min and productivities of up to 0.65 g per day. Spectroscopic and computational mechanistic studies showed that catalyst derivatization not only enhanced solubility of the new catalyst compared to poorly-soluble DCA, but profoundly diverted the photocatalytic mechanism from singlet electron transfer (SET) reductive quenching with amines toward energy transfer (E
T) with O
. |
| doi_str_mv | 10.1039/d1sc05840a |
| format | Article |
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-selective oxidation of trialkylamines in continuous flow. Based on the 9,10-dicyanoanthracene (DCA) core, a new catalyst (DCAS) was designed with solubilizing groups for flow processing. This allowed O
to be harnessed as a sustainable oxidant for late-stage photocatalytic N-CH
oxidations of complex natural products and active pharmaceutical ingredients bearing functional groups not tolerated by previous methods. The organophotocatalytic gas-liquid flow process affords cleaner reactions than in batch mode, in short residence times of 13.5 min and productivities of up to 0.65 g per day. Spectroscopic and computational mechanistic studies showed that catalyst derivatization not only enhanced solubility of the new catalyst compared to poorly-soluble DCA, but profoundly diverted the photocatalytic mechanism from singlet electron transfer (SET) reductive quenching with amines toward energy transfer (E
T) with O
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-selective oxidation of trialkylamines in continuous flow. Based on the 9,10-dicyanoanthracene (DCA) core, a new catalyst (DCAS) was designed with solubilizing groups for flow processing. This allowed O
to be harnessed as a sustainable oxidant for late-stage photocatalytic N-CH
oxidations of complex natural products and active pharmaceutical ingredients bearing functional groups not tolerated by previous methods. The organophotocatalytic gas-liquid flow process affords cleaner reactions than in batch mode, in short residence times of 13.5 min and productivities of up to 0.65 g per day. Spectroscopic and computational mechanistic studies showed that catalyst derivatization not only enhanced solubility of the new catalyst compared to poorly-soluble DCA, but profoundly diverted the photocatalytic mechanism from singlet electron transfer (SET) reductive quenching with amines toward energy transfer (E
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-selective oxidation of trialkylamines in continuous flow. Based on the 9,10-dicyanoanthracene (DCA) core, a new catalyst (DCAS) was designed with solubilizing groups for flow processing. This allowed O
to be harnessed as a sustainable oxidant for late-stage photocatalytic N-CH
oxidations of complex natural products and active pharmaceutical ingredients bearing functional groups not tolerated by previous methods. The organophotocatalytic gas-liquid flow process affords cleaner reactions than in batch mode, in short residence times of 13.5 min and productivities of up to 0.65 g per day. Spectroscopic and computational mechanistic studies showed that catalyst derivatization not only enhanced solubility of the new catalyst compared to poorly-soluble DCA, but profoundly diverted the photocatalytic mechanism from singlet electron transfer (SET) reductive quenching with amines toward energy transfer (E
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| title | An organophotocatalytic late-stage N-CH 3 oxidation of trialkylamines to N -formamides with O 2 in continuous flow |
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