Solid-Phase Synthetic Approach Toward the Synthesis of Oxygen-Containing Heterocycles

Solid-phase organic synthesis is a rapidly expanding area of synthetic chemistry which is being widely exploited in the search for new medicinally important compounds using combinatorial techniques. In recent decades, a large number of reports related to solid-phase synthesis of heterocycles have appeared because of the wide variety in their biological activity. In this review, we report the important role of solid-phase synthesis in the synthesis of oxygen-bearing heterocycles.     

Solid-Phase Synthesis of Nitrogen-Containing Five-Membered Heterocycles

In recent decades, a large number of reports related to solid-phase synthesis of heterocycles have appeared, owing to the wide variety of their biological activity. This review introduces the key concepts of solid-phase methodology and combinatorial synthesis with particular focus on the important role of solid-phase synthesis in the synthesis of nitrogen-containing five-membered ring heterocycles.     

Synthetic routes to seven and higher membered S-heterocycles by use of metal and nonmetal catalyzed reactions

Nitrogen, oxygen, and sulfur containing heterocycles have a wide range of biological activities. Metal and nonmetal catalysts are used in organic reactions with high activity. New strategies have been developed for the preparation of heterocycles in the last decades. The metal and nonmetal catalyzed synthesis of heterocycles is becoming an important and highly rewarding protocol in organic synthesis. In this review article, the synthesis of seven and higher-membered S-heterocycles is presented with the application of metal and nonmetal catalysts for the period from 1968 to 2018.     

Generation and cycloaddition of polymer-supported azomethine ylide by utilizing the characteristics of silicon: a facile route to pyrrolidines and pyrroles from α-silylimines bound to resin

The solid-phase synthesis of pyrrolidine and pyrrole derivatives using polymer-supported α-silylimines is described. Polymer-supported azomethine ylides were generated from the corresponding α-silylimine by thermal 1,2-silatropy onto the imino nitrogen or by treatment with a trifluorosilane as a quaternization and desilylation reagent, and the resulting species were then reacted with dipolarophiles to give five-membered heterocycles.     

Synthesis of five-membered N-heterocycles using Rh based metal catalysts

Abstract

One of the highly emerging and an important aspect of organic chemistry is the metal catalyzed synthesis of heterocycles. The methodologies used earlier for their synthesis were less approachable to the organic chemist because of their high cost, highly specified instrumentation, and inconvenient methods. For both the stereoselective and regioselective synthesis of five-membered nitrogen containing heterocycles, cyclic reactions that are Rh-catalyzed have known to be very efficient. The present review covers the varied applications of Rh as a catalyst and its importance in the formation of five-membered nitrogen containing heterocycles. The fascinating research that has been done in this area is enclosed in this review.     

Cu-assisted C–N bond formations in six-membered N-heterocycle synthesis

Abstract

One of the highly emerging and important aspect of organic chemistry is the metal-catalyzed synthesis of the heterocycles. The methodologies used earlier for its synthesis were less approachable to the organic chemist because of their high cost, highly specified instrumentation and inconvenient methods. For both the stereoselective and regioselective synthesis of six-membered nitrogen-containing heterocycles, cyclic reactions that are Cu-catalyzed have known to be very efficient. The presented review covers the varied applications of Cu as a catalyst and its importance in the formation of six-membered nitrogen-containing heterocycles. The fascinating research that has been done in this area is also enclosed in this review.     

Copper catalyzed synthesis of seven and higher membered heterocycles

Nitrogen, oxygen, and sulfur-containing heterocycles have a wide range of biological activities. Metal catalysts are used in organic reactions with high activity. New methods have been explored for the synthesis of heterocyclic compounds in the past few years. The preparation of heterocycles with the assistance of metal catalyst is becoming a highly rewarding strategy in organic synthesis. In this review article, the synthesis of seven and higher-membered heterocycles is presented using copper as a catalyst.     

茂铁杂环化合物的绿色合成

综述了近年来含二茂铁杂环化合物绿色合成研究的新进展, 主要包括微波、超声波、固相合成、特殊催化剂的使用、绿色溶剂、光催化合成等新技术、新试剂在该类反应中的应用.     

Solid-phase and microwave-assisted syntheses of 2,5-diketopiperazines: small molecules with great potential

Diketopiperazines (DKPs) are a well-known class of heterocycles that have recently emerged as a promising biologically active scaffold. Solid-phase organic synthesis has become an important tool in the combinatorial exploration of these privileged structures, expediting the synthesis and, therefore, the discovery of active compounds. To date, certain DKPs have shown potent activities against a range of diseases and biological phenomena, including bacterial infections, various cancers, asthma, infertility, premature labor, and HIV. Recent applications of solid-phase DKP synthesis, with a particular focus on cyclative cleavage and microwave-assisted reactions, are highlighted herein.     

Metal catalysts: applications in higher-membered <Emphasis Type="Italic">N</Emphasis>-heterocycles synthesis

In recent decades, a large number of reports related to synthesis of N-, O- and S-containing heterocycles have appeared owing to a wide variety of their biological activity. The metal-catalyzed synthesis of heterocycles is becoming an important and highly rewarding protocol in organic synthesis. This review focuses on the use of metal as a catalyst for the synthesis of nitrogen-containing heterocycles. It describes the formation of higher-membered heterocyclic rings.     

Advancements in the Synthesis and Applications of Cationic N‐Heterocycles through Transition Metal‐Catalyzed C−H Activation

Cationic N‐heterocycles are an important class of organic compounds largely present in natural and bioactive molecules. They are widely used as fluorescent dyes for biological studies, as well as in spectroscopic and microscopic methods. These compounds are key intermediates in many natural and pharmaceutical syntheses. They are also a potential candidate for organic light‐emitting diodes (OLEDs). Because of these useful applications, the development of new methods for the synthesis of cationic N‐heterocycles has received a lot of attention. In particular, many C?H activation methodologies that realize high step‐ and atom‐economies toward these compounds have been developed. In this review, recent advancements in the synthesis and applications of cationic N‐heterocycles through C?H activation reactions are summarized. The new C?H activation reactions described in this review are preferred over their classical analogs.     

Ball Milling for Heterocyclic Compounds Synthesis in Green Chemistry: A Review

This review aims to present the application of ball milling for the synthesis ofdifferent heterocyclic compounds in very good yields. The method is a simple, economical, and ecofriendly process for synthesizing heterocycles, which is a large family of organic compounds. They are extremely important and have wide-ranging pharmaceutical and industrial applications.     

异苯并吡喃和异苯并呋喃衍生物合成研究进展

异苯并吡喃和异苯并呋喃是一类重要的杂环化合物, 许多天然产物中含有异苯并吡喃或异苯并呋喃结构单元. 由于其广泛的生物及药物活性, 它们的合成方法受到广泛关注. 综述了异苯并吡喃和异苯并呋喃衍生物的主要合成方法.     

Catalytic Asymmetric Synthesis of Enantioenriched Heterocycles Bearing a CCF3 Stereogenic Center

Given the important agricultural and medicinal application of optically pure heterocycles bearing a trifluoromethyl group at the stereogenic carbon center in the heterocyclic framework, the exploration of efficient and practical synthetic strategies to such types of molecules remains highly desirable. Catalytic enantioselective synthesis has one clear advantage that it is more cost‐effective than other synthetic methods, but remains limited by challenges in achieving excellent yield and stereoselectivities with a low catalyst loading. Thus far, numerous models of organo‐ and organometal‐catalyzed asymmetric reactions have been exploited to achieve this elusive goal over the past decade. This review article describes recent progress on this research topic, and focuses on an understanding of the catalytic asymmetric protocols exemplified in the catalytic enantioselective synthesis of a wide range of complex enantioenriched trifluoromethylated heterocycles.     

聚合物支载合成杂环化合物的研究进展

聚合物支载的反应与传统的经典液相反应相比，具有独特的优点，广泛应用于 杂环化合物的合成。综述了近年来杂环化合物的固相和液相合成研究。     

Synthesis of Five-Membered N,N,N- and N,N,N,N-Heterocyclic Compounds: Applications of Microwaves

The development of new strategies for the synthesis of small-sized heterocycles has remained a highly attractive but challenging proposition. An overview of the application of microwave irradiation to the synthesis of five-membered heterocyclic compounds containing three and four nitrogen atoms is presented, focusing on the developments in the past 5–10 years. This contribution covers the literature concerning the total synthesis of N,N,N- and N,N,N,N-heterocycles. The literature data are summarized based on the size and type of cycles.     

氮杂Wittig反应的最近进展

综述了最近几年氮杂Wittig反应的研究进展,包括分子间氮杂Wittig反应、分子内氮杂wittig反应及串联的氮杂Wittig反应。讨论了氮杂Wittig反应在一些含氮杂环、稠杂环及天然产物合成中的应用。     

Solid-phase parallel synthesis of natural product-like diaza-bridged heterocycles through Pictet-Spengler intramolecular cyclization

A multistep, practical solid-phase strategy for the synthesis of natural product-like diaza-bridged heterocycles was developed. A key step in the library synthesis is tandem acidolytic cleavage with subsequent in situ iminium formation followed by the Pictet-Spengler intramolecular cyclization. The Pictet-Spengler-type intramolecular cyclization step was regioselective and diastereoselective to give final products as single diastereomers in exceptional yields and purities, which was confirmed by NMR structural study and LC/MS analysis. This approach is exemplified by the preparation of a 384-member library of 3,9-diazabicyclo[3.3.1]non-6-en-2-one skeletons, fused with indole and dihydroxybenzene and diversified at two bridging nitrogen atoms, using the solid-phase parallel synthetic methodology without further purification. In this pilot library, two diastereomerically enriched diaza-bridged core skeletons were modified by amide and urea bond formation on bridging nitrogen atoms, and this scheme exhibits the potential for expansion to obtain further diversification.     

Annulation of primary amines to piperazines and diazaspirocycles utilizing alpha-methyl benzyl resin

The microwave-assisted solid-phase synthesis of piperazines, 3,9-diazaspiro[5.5]undecanes and 2,9-diazaspiro[5.5]undecanes is reported. The synthesis relies on the direct annulation of primary amines with resin-bound bismesylates. Critical to the success of this chemistry was the development of alpha-methyl benzyl carbamate resin linker. This resin permits the cleavage of the heterocycles under mildly acidic conditions, free of contaminating linker-derived N-alkylated byproducts.     

Enantioselective Reactions of N‐Acyliminium Ions Using Chiral Organocatalysts

N‐acyliminium ions are reactive intermediates that can act as electron‐deficient electrophiles toward weak or soft nucleophiles, thereby providing useful methods for both intermolecular‐ and intramolecular carbon–carbon and carbon–heteroatom bond formation. Nucleophilic additions to N‐acyliminium ions constitute an important method for providing α‐functionalized amino compounds and many other biologically active nitrogen‐containing heterocycles. The development of efficient catalytic asymmetric reactions is a key objective in modern organic chemistry and is very important for the synthesis of natural products, pharmaceuticals, and agrochemicals. Various methods are available for this purpose and mostly rely on the use of chiral catalysts for enantioselective synthesis. This review deals with one aspect of such catalysis, which has emerged only in the past few years, and its applications in enantioselective reactions of N‐acyliminium ions to provide various nitrogen‐containing heterocycles.