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
Fakultät für Chemie und Pharmazie, Universität Regensburg 93040 Regensburg Germany
GlaxoSmithKline Medicines Research Centre Gunnels Wood Road Stevenage SG1 2NY UK.
Chem Sci. 2021 Dec 28;13(7):1912-1924. doi: 10.1039/d1sc05840a. eCollection 2022 Feb 16.
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 (ET) with O.
我们报道了一种在连续流动体系中进行的有机光催化、N-CH选择性氧化三烷基胺的方法。基于9,10-二氰基蒽(DCA)核心,设计了一种带有增溶基团的新型催化剂(DCAS)用于流动过程。这使得氧气能够作为一种可持续的氧化剂,用于复杂天然产物和活性药物成分的后期光催化N-CH氧化反应,这些底物带有先前方法无法耐受的官能团。与间歇模式相比,有机光催化气液流动过程能实现更清洁的反应,停留时间短至13.5分钟,每天生产率高达0.65克。光谱和计算机理研究表明,与难溶性的DCA相比,催化剂衍生化不仅提高了新型催化剂的溶解度,而且使光催化机理从与胺的单重态电子转移(SET)还原猝灭显著转向与氧气的能量转移(ET)。
