Glasnov T (2016) Continuous-flow chemistry in the research laboratory: modern organic chemistry in dedicated reactors at the dawn of the 21st century. Noël T (ed) (2017) Photochemical processes in continuous-flow reactors: from engineering principles to chemical applications. Morse PD, Beingessner RL, Jamison TF (2017) Isr J Chem. Mizuno K, Nishiyama Y, Ogaki T, Terao K, Ikeda H, Kakiuchi K (2016) J Photochem Photobiol C Photochem Rev 29:107Ĭiriminna R, Delisi R, Xu Y-J, Pagliaro M (2016) Org Process Res Dev 20:403ĭouglas JJ, Sevrin MJ, Stephenson CRJ (2016) Org Process Res Dev 20:1134 Shaw MH, Twilton J, MacMillan DWC (2016) J Org Chem 81:6898 Zhou L, Hossain ML, Xiao T (2016) Chem Rec 16:319 Romero NA, Nicewicz DA (2016) Chem Rev 116:10075Ĭambie D, Bottecchia C, Straathof NJW, Hessel V, Noël T (2016) Chem Rev 116:10276 Staveness D, Bosque I, Stephensen CRJ (2016) Acc Chem Res 49:2295 Schuster EM, Wipf P (2014) Isr J Chem 54:361 Garlets ZJ, Nguyen JD, Stephenson CRJ (2014) Isr J Chem 54:351 Su Y, Straathof NJW, Hessel V, Noël T (2014) Chem Eur J 20:10562 Wiley VCH, WeinheimĮicher T, Hauptmann S, Speicher A (2012) The chemistry of heterocycles: structures, reactions, synthesis and applications.3rd edn. Wiley, New YorkĪlvarez-Builla J, Vaquero JJ, Barluenga J (eds) (2011) Modern heterocyclic chemistry, vol 1–4. Pozharskii AF, Soldatenkov A, Katritzky AR (2011) Heterocycles in life and society: an introduction to heterocyclic chemistry, biochemistry and applications.2nd edn. Tris(bipyridyl)ruthenium(II) dichloride tert-BuOOH: Tris(2,2′-bipyridine)ruthenium(II) hexafluorophosphate Ru(bpy) 3Cl 2 N-tert-Butyloxycarbonyl Ru(bpy) 3(PF 6) 2 Iron (II) tris(1,10-phenanthroline-kN1,kN10)-(OC-6-11) di(1,1,1-trifluoro- N-methanesulfonamide) Ir(dF(CF 3)ppy) 2(dtbbpy)PF 6īisphenyl-C]Iridium(III) hexafluorophosphate PF 6Ĥ,4′-Bis(1,1-dimethylethyl)-2,2′-bipyridine- N1, N1′]bisiridium(III) hexafluorophosphate LEDs: KeywordsĬopper (I) (2,9-dimethyl-1,10-phenanthroline-kN1,kN10)](T-4) tetrafluoroborate DIY:įac-Tris(2-phenylpyridine)iridium (III) Fe(phen) 3(NTf 2) 2 In this chapter, recent achievements in the area of continuous-flow aided photoredox synthesis are covered, including some general remarks on instrumentation, theoretical background and selected flow UV-photochemistry examples. Specifically, visible-light photoredox processes based on metal- and organic photosensitizer are attracting significant attention and have seen an exceptional advance recently.Īdditionally, continuous-flow processing has enabled a safer and more efficient generation of various heterocycles, whilst allowing their syntheses in a scalable manner. As the social concern regarding environmental protection gains importance, the use of light as the ultimate green promoter for chemical reactions has been revived in the scientific community. The ubiquitous presence of heterocyclic moieties in everyday life justifies the ongoing intensive research within the synthetic community to discover effective methodologies for their construction.
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