Abstract

The quinoline ring system is one of the most ubiquitous heterocycles in the fields of medicinal and industrial chemistry, forming the scaffold for compounds of great significance. These include anti-inflammatory and antitumor agents, the antimalarial drugs quinine and chloroquine, and organic light-emitting diodes. Quinolines were first synthesized in 1879, and since then a multitude of synthetic routes have been developed. Many of these methods, such as the Skraup, Doebner–Von Miller, and Friedlander quinoline syntheses, are well-known but suffer from inefficiency, harsh reaction conditions, and toxic reagents. This review focuses on recent transition metal-free processes toward these important heterocycles, including both novel routes and modifications to established methods. For example, variations on the Skraup method include microwave irradiation, ionic liquid media, and novel annulation partners, all of which have shown increased reaction efficiency and improved yield of the heteroring-unsubstituted quinoline products. Similarly, modifications to other synthetic routes have been implemented, with the quinoline products displaying a wide variety of substitution patterns.

Highlights

  • Quinoline was discovered by Runge in 1834 as one of the many components extracted from coal tar [1]

  • Lewis acid catalysis has featured in recent literature on the Friedländer quinoline synthesis

  • As with the previously mentioned Skraup and Doebner reactions, the Friedländer quinoline synthesis can be improved by the use of ionic liquids as either solvent or catalyst

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Summary

Introduction

Quinoline was discovered by Runge in 1834 as one of the many components extracted from coal tar [1] While this nitrogen-based heterocycle is not overly useful in and of itself, it is modified with simple to complex functionalities, giving a multitude of compounds that are ubiquitous in the fields of medicinal and industrial chemistry. The prevalence of the quinoline ring system in a vast range of medical and industrial settings can be ascribed mainly to its versatility and broad potential for functionalization It is this versatility which earned it the designation of “privileged scaffold” in medicinal chemistry, a term coined by Evans in 1988 which refers to simple structural subunits present in diverse therapeutic compounds with distinctive receptor affinities [4]. Structures ofI- quinine (I); chloroquine (II); (III), mefloquine iodide (IV); Cl ethyl red(III); and pinacyanol (V)

Methods
Quinoline synthesis methods
Quinoline synthesis methods: reaction
SkraupSynthesis
Doebner
Doebner–Von
Conrad–Limpach Reaction
Povarov Reaction
11. Iodine-catalyzed
20. The solvent
Pfitzinger
13. Pfitzinger
14. Acid-catalyzed
Friedländer Reaction
16. Brønsted
17. Brønsted
18. Chitosan-SO
19. Lewis acid-catalyzed
20. Lewis acid-catalyzed multicomponent
22. N-Heterocyclic carbene-catalyzed
23. Base-mediated
Electrophilic Cyclization
28. Quinoline
30. Photochemical
31. Acid-mediated
Oxidative
Aza-Wittig Cascade Reactions
36. Base-catalyzed
38. NBS-mediated
39. Iodine-catalyzed
Findings
Conclusions
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