Synthesis and Properties of 6-Aryl-4-azidocinnolines and 6-Aryl-4-(1,2,3-1H-triazol-1-yl)cinnolines

Abstract: An efficient approach towards the synthesis of 6-aryl-4-azidocinnolines was developed with the aim of exploring the photophysical properties of 6-aryl-4-azidocinnolines and their click reaction products with alkynes, 6-aryl-4-(1,2,3-1H-triazol-1-yl)cinnolines. The synthetic route is based on the Richter-type cyclization of 2-ethynyl-4-aryltriazenes with the formation of 4-bromo-6-arylcinnolines and nucleophilic substitution of a bromine atom with an azide functional group. The developed synthetic approach is t… Show more

“…We chose a CN-substituted azide 5/amine 6 pair as the object of the studies because of the direct conjugation of a CN group with N 3 /NH 2 groups in azide 5 and amine 6, respectively, which is crucial for the fluorescence through the intramolecular charge transfer (ICT) mechanism [17]. The synthesis of azide 5 was achieved by the synthetic protocol reported earlier [35] with a slight modification: the replacement of the chromatographic purification of 4-bromocinnoline 4 with recrystallization improved the yield of compound 4 from 62% up to 91% (Scheme 1). Two types of reducing conditions were tested: the Staudinger reduction and the use of sodium borohydride.…”

“…Recently, we have developed an efficient synthetic route towards 6-aryl-4-azidocinnolines based on the nucleophilic substitution of a bromine atom at the C4 position of 6-arylcinnolines with sodium azide [35]. The azidocinnolines possessed weak fluorescence (quantum yield (QY) < 1%); therefore, we believed that switching to the corresponding 4-(triazolyl)cinnolines would improve the fluorescent properties, providing a fluorogenic azide/triazole probe.…”

4-Azidocinnoline—Cinnoline-4-amine Pair as a New Fluorogenic and Fluorochromic Environment-Sensitive Probe

“…We chose a CN-substituted azide 5/amine 6 pair as the object of the studies because of the direct conjugation of a CN group with N 3 /NH 2 groups in azide 5 and amine 6, respectively, which is crucial for the fluorescence through the intramolecular charge transfer (ICT) mechanism [17]. The synthesis of azide 5 was achieved by the synthetic protocol reported earlier [35] with a slight modification: the replacement of the chromatographic purification of 4-bromocinnoline 4 with recrystallization improved the yield of compound 4 from 62% up to 91% (Scheme 1). Two types of reducing conditions were tested: the Staudinger reduction and the use of sodium borohydride.…”

“…Recently, we have developed an efficient synthetic route towards 6-aryl-4-azidocinnolines based on the nucleophilic substitution of a bromine atom at the C4 position of 6-arylcinnolines with sodium azide [35]. The azidocinnolines possessed weak fluorescence (quantum yield (QY) < 1%); therefore, we believed that switching to the corresponding 4-(triazolyl)cinnolines would improve the fluorescent properties, providing a fluorogenic azide/triazole probe.…”

4-Azidocinnoline—Cinnoline-4-amine Pair as a New Fluorogenic and Fluorochromic Environment-Sensitive Probe

“…There are fewer ways to access indolone derivatives, mainly based on the use of di- [ 12 , 38 – 39 ] or triketones [ 10 , 13 ] and enaminones [ 40 – 43 ] as starting materials. For the synthesis of cinnoline derivatives, aryldiazenes and aryltriazenes are substrates of choice for transition-metal-catalyzed (Rh, Pd, Cu) cross-coupling reactions, followed by intramolecular cyclizations [ 44 – 47 ]. Moreover, arylhydrazones and arylhydrazines/hydrazines can be used as well, respectively, as partners in [4 + 2] cyclization reactions [ 48 – 51 ] or by reacting mostly with carbonyl derivatives [ 52 – 55 ].…”

Tuneable access to indole, indolone, and cinnoline derivatives from a common 1,4-diketone Michael acceptor

“…There are fewer ways to access indolone derivatives mainly based on the use of di- [12,38,39] or tri-ketones [10,13] and enaminones [40][41][42][43] as starting materials. For the synthesis of cinnoline derivatives, aryldiazenes and aryltriazenes are substrates of choice for transition-metal catalyzed (Rh, Pd, Cu) cross-coupling reactions followed by intramolecular cyclizations [44][45][46][47]. Moreover arylhydrazones and arylhydrazines/hydrazines car be used as well respectively as partners in 4+2 cyclization reaction [48][49][50][51] or by reacting mostly with carbonyl derivatives [52][53][54][55].…”

Tuneable access to indole, indolone and cinnoline derivatives from a common 1,4-diketone Michael acceptor