An Easy-to-Machine Electrochemical Flow Microreactor: Efficient Synthesis of Isoindolinone and Flow Functionalization
Flow electrochemistry is an efficient methodology to generate radical intermediates. An electrochemical flow microreactor has been designed and manufactured to improve the efficiency of electrochemical flow reactions. With this device only little or no supporting electrolytes are needed, making processes less costly and enabling easier purification. This is demonstrated by the facile synthesis of amidyl radicals used in intramolecular hydroaminations to produce isoindolinones. The combination with inline mass spectrometry facilitates a much easier combination of chemical steps in a single flow process.
Folgueiras-Amador, Ana A.,Philipps, Kai,Guilbaud, Sébastien,Poelakker, Jarno,Wirth, Thomas
p. 15446 - 15450
(2017/11/10)
Efficient Regio- And Stereoselective Synthesis of 5-Alkyl(aryl)idene- and 5-[Iodoalkyl(aryl)idene]-1H-pyrrol-2(5//)-ones via Electrophilic Cyclization
A variety of substituted 5-alkyl(aryl)idene-and 5-[1o-doalkyl(aryl)idene]- 1ff-pyrrol-2(5H)-ones were readily prepared with good yields under very mild reaction conditions by the iodocy- clization of (2Z,4E)-dienamides and (Z)-alk-2-en-4-ynamides with iod
Synthesis of Isocoumarin, 1-Isoquinolone and 4(1H)-Quinolone Derivatives via Seleno-intermediates
The reaction of 2-styrylbenzoic acid 2 with N-phenylselenosuccinimide (N-PPS) affords 3-phenyl-iso-coumarin derivatives 3 and 3,4-dihydro-3-phenyl-4-(phenylseleno)isocoumarins 4 via selenolactonization.The reaction of 2-styrylbenzamides 5 and 1-(2-aminoph
Izumi, Taeko,Morishita, Nobuya
p. 145 - 152
(2007/10/02)
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