Sunflow: Sunlight Drives Fast and Green Photochemical Flow Reactions in Simple Microcapillary Reactors – Application to Photoredox and H‐Atom‐Transfer Chemistry | Zendy

Nauth Alexander M. | Zendy; Lipp Alexander | Zendy; Lipp Benjamin | Zendy; Opatz Till | Zendy

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Sunflow: Sunlight Drives Fast and Green Photochemical Flow Reactions in Simple Microcapillary Reactors – Application to Photoredox and H‐Atom‐Transfer Chemistry

Author(s) -

Nauth Alexander M.,

Lipp Alexander,

Lipp Benjamin,

Opatz Till

Publication year - 2017

Publication title -

european journal of organic chemistry

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.825

H-Index - 155

eISSN - 1099-0690

pISSN - 1434-193X

DOI - 10.1002/ejoc.201601394

Subject(s) - chemistry , photoredox catalysis , photochemistry , sunlight , energy transfer , energy flow , flow (mathematics) , atom (system on chip) , photocatalysis , chemical physics , energy (signal processing) , organic chemistry , catalysis , optics , mechanics , physics , statistics , mathematics , computer science , embedded system

“Sunflow“ – The combination of a microcapillary reactor in continuous flow mode with sunlight as the most sustainable energy source imaginable was applied to a range of photoredox and H‐atom‐transfer reactions making them both fast and green.

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