铜催化苯甲酰胺与烷基偶氮试剂环化合成含α-取代季碳中心异喹啉二酮

发展了一种苯甲酰胺自由基自由基环化制备α-官能化叔烷基取代的异喹啉二酮的新反应。此环化反应以偶氮试剂为α-取代叔烷基自由基源物质,利用碘化亚铜/空气体系催化N-烷基-N-甲基丙烯酰基苯甲酰胺发生环化,经过串联自由基加成/环化/碳-碳键形成过程,一步构建了三重碳-碳键,以41%~71%的产率合成了一系列异喹啉二酮及其衍生物。特别值得提出得是,此研究发展了一种新型α-官能叔烷基自由基源物质,发现了一种同时引入两个α-官能叔烷基片段的串联新反应。反应底物适应范围广,反应高效,催化体系廉价实用,为具有潜在药用价值的含α-取代季碳中心的异喹啉二酮及衍生物的合成提供了一条廉价、简单、快捷的新途径。     

可见光诱导烯烃环化合成二氟烷基化异喹啉二酮

发展了一种可见光诱导的活泼烯烃串联自由基环化合成含氟异喹啉二酮的反应。 在可见光诱导下,多种N-烷基-N-甲基丙烯酰基苯甲酰胺与二氟溴乙酸乙酯发生自由基串联环化反应,以66%~75%的产率合成了一系列具有潜在生理活性的二氟烷基化异喹啉二酮。 此研究为合成具有潜在药用价值的氟取代异喹啉二酮提供了一条高效、条件温和的途径。     

可见光诱导烯烃串联加成环化合成多氟烷基化异喹啉二酮

发展了一种可见光诱导的活泼烯烃与全氟碘代烷串联加成环化合成多氟异喹啉二酮的反应。 在可见光诱导下,多种N-丙烯酰基-N-丁基苯甲酰胺衍生物与全氟碘代烷发生自由基串联加成环化反应,以54%~80%的产率合成了一系列的多氟取代异喹啉二酮衍生物。 为具有潜在药用价值的多氟取代异喹啉二酮合成提供了一条高效、条件温和、绿色的新途径。     

可见光诱导的烯炔和多氟烷基卤环化合成含氟异喹啉酮

发展了一种可见光诱导的1,7-烯炔与全氟烷基卤串联原子转移自由基加成(ATRA)/环化合成含氟2,4-二氢异喹啉-2(1H)-酮的反应。以多氟烷基碘或溴为自由基前体,面式-三( 2-苯基吡啶)合铱(摩尔分数1%)为光敏剂,在5 W蓝光发光二极管(LED)照射下,多种苯桥联1,7-烯炔顺利发生串联(ATRA)/环化反应,以中等到优秀(62%~84%)的产率合成了一系列多氟化异喹啉酮衍生物。 此合成方法反应条件温和、清洁、高效且底物适用范围广,为具有潜在药用价值的多氟化2,4-二氢异喹啉-2(1H)-酮的合成提供新的途径。     

钌(Ⅱ)催化的亚胺酯碳-氢键官能化/环化反应合成烯基取代的二氢异喹诺酮（英文）

通过钌催化的亚胺酯C—H官能化/环化串联反应为高效构建乙烯基取代的二氢异喹诺酮衍生物提供了新方法.该反应具有较好的官能团耐受性,以中等至良好的收率得到相应的产物.该方法首次实现了钌(II)催化的亚胺酯C—H官能化与4-乙烯基-1,3-二噁烷-2-酮的环化串联反应合成3-乙烯基-3,4-二氢异喹啉-1(2H)-酮.     

可见光诱导的共轭磺酰胺串联脱砜/环化反应

发展了一种可见光诱导的共轭磺酰胺串联脱砜/环化,合成全氟烷基化吲哚酮或α-芳基酰胺的方法。此反应以多氟烷基碘或溴为氟源,在发光二极管蓝光灯照射下,利用面式-三(2-苯基吡啶)合铱催化N-烷基-N-甲基丙烯酰基苯磺酰胺经过串联自由基加成/β-芳基迁移/脱砜环化过程,一步构筑两重碳-碳键,以41%~78%的产率合成了一系列含氟吲哚酮或α-芳基酰胺。此方法底物适用范围广,反应条件温和(室温),催化体系绿色,为具有潜在生理活性的含氟吲哚酮及α-芳基酰胺的合成提供了一条高效、快捷的新途径。     

无金属催化烯烃自由基环化合成多氟取代吲哚酮

一种无金属催化的活泼烯烃与全氟碘代丁烷自由基环化合成含氟吲哚酮的反应被发展。 在廉价易得的的偶氮二异丁腈(AIBN)介导下, 多种N-芳基丙烯酰胺类化合物与全氟碘代丁烷发生自由基串联环化反应,以53%~85%的产率合成了一系列的潜在生理活性的多氟取代吲哚酮。 此工作为潜在药用价值的多氟取代吲哚酮合成提供了一条高效、廉价、绿色的新途径。     

通过异喹啉盐与环状1,3-二酮一锅合成二氢异喹啉-3-酮-1,4-桥环结构

异喹啉盐具有两个亲电位点, 用它与双亲核试剂发生去芳构化/环化反应, 是高效构建异喹啉桥环结构的有效策略. 然而, 这一策略主要集中在1,3-桥环结构的合成. 最近利用异喹啉盐与4-羟基香豆素反应, 首次实现了二氢异喹 啉-3-酮-1,4-桥环的合成. 但是, 当用环状1,3-二酮代替4-羟基香豆素反应时, 意外地得到了异喹啉-1,3,4(2H)-三酮. 利用高分辨质谱分析发现, 这一意外转化是由于环状1,3-二酮发生O-亲核取代后, 消除2-溴-1,3-环状二酮, 得到4-溴异喹啉-3(2H)-酮. 该中间体发生两次连续水解/空气氧化后, 得到了异喹啉-1,3,4(2H)-三酮. 基于此机理的认识, 向反应体系中添加催化量的三氟甲烷磺酸后, 成功抑制了环状1,3-二酮的O-亲核取代反应, 顺利得到了二氢异喹啉-3-酮的1,4-桥环结构(33个反应实例). 反应条件温和, 提供了一种构建异喹啉1,4-桥环骨架的高效合成方法.     

可见光促进的酰胺氮自由基参与的分子内氢胺化反应

报道了可见光促进的邻烯基取代苯甲酰胺的分子内自由基氢胺化反应.在该反应中,通过脱质子光致电子转移策略实现了氮-氢键的直接催化活化来产生氮自由基,随后通过氮自由基与烯烃的加成来实现氢胺化反应.该反应以优异的收率合成了一系列具有潜在生理活性的3,4-二氢异喹啉酮衍生物.该反应体系利用有机染料催化剂EosinY Na作为光氧化还原催化剂、廉价易得的NaOH作为碱试剂、反应条件温和、操作简单、且官能团兼容性好.另外,该反应在放大量到克级规模、或者利用太阳光作为光源,均能以优异的收率得到相应目标化合物.因此,这类反应为3,4-二氢异喹啉酮的合成提供了一个简便有效的方法.     

可见光催化炔烃串联氰基烷基磺酰化/环化（英文）

报道了一种在无过渡金属条件下可见光催化炔烃与环酮肟衍生物的串联氰基烷基磺酰化/环化反应,通过SO_2的插入合成2-氰基烷基磺酰基-9H-吡咯并[1,2-a]吲哚.该碳碳叁键的双官能团化包括自由基机理,依次经历了亚胺自由基的形成、环酮的开环、SO_2的插入、磺酰基对碳碳叁键的加成、分子内环化和异构化.     

Iron-catalyzed benzamide formation. Application to the synthesis of moclobemide

A convenient and user-friendly method to yield benzamides from primary and secondary amines and various benzylic alcohols in the presence of a cheap iron salt (FeCl₂·4H₂O) and tert-butylhydroperoxide (70% in water) as a stoichiometric oxidant is described. Control experiments indicated that this reaction might involve radical species. This method proved to be general, generating a family of 30 benzamides and was applied to the preparative synthesis of anti-anxiety drug moclobemide.     

An Electrochemical Way to Generate Amphiphiles from Hydrazones for the Synthesis of 1,2,4-Triazole Scaffold Cyclic Compounds

An electro-oxidative cyclization pathway in which hydrazones are selected as starting materials to generate amphiphiles by reacting with benzylamines and benzamides was reported. This strategy successfully prepared a series of 1,2,4-triazoles in satisfactory yields. Moreover, the use of cheap stainless steel as the anode, the feasibility to conduct the transformation as a one-pot reaction and the proof that scaling-up these reactions is possible make this transformation attractive for potential application in industry.     

可见光诱导邻烯基甲酰苯胺环化合成2-喹啉酮

使用廉价易得的邻烯基甲酰苯胺在可见光的诱导下发生自由基环化反应, 以良好至优秀的产率合成了15种2-喹啉酮衍生物. 该方法简单高效、 条件温和、 产率较高, 具有优异的官能团兼容性, 不仅拓展了邻烯基甲酰苯胺参与的新型有机反应, 也为光催化合成喹啉酮类化合物提供了一条新途径.     

Radical Hydrodeiodination of Aryl,Alkenyl, Alkynyl,and Alkyl Iodides with an Alcoholate as Organic Chain Reductant through Electron Catalysis

A simple and efficient method for radical hydrodeiodination is reported. The novel approach uses electron catalysis. In situ generated Na‐alcoholates are introduced as radical chain reducing reagents and reactions work with O₂ as cheap initiator. Hydrodeiodination works on aryl, alkenyl, alkynyl iodides and a tert‐alkyl iodide also gets reduced applying the method. Albeit less general, the method is also applicable to the reduction of aryl bromides. The novel reagent is successfully used to conduct typical reductive radical cyclization reactions and mechanistic studies are reported.     

Radical Hydrodeiodination of Aryl,Alkenyl, Alkynyl,and Alkyl Iodides with an Alcoholate as Organic Chain Reductant through Electron Catalysis

A simple and efficient method for radical hydrodeiodination is reported. The novel approach uses electron catalysis. In situ generated Na‐alcoholates are introduced as radical chain reducing reagents and reactions work with O₂ as cheap initiator. Hydrodeiodination works on aryl, alkenyl, alkynyl iodides and a tert‐alkyl iodide also gets reduced applying the method. Albeit less general, the method is also applicable to the reduction of aryl bromides. The novel reagent is successfully used to conduct typical reductive radical cyclization reactions and mechanistic studies are reported.     

New approaches to bicyclic vinyl heterocycles from propargylic acetals

The paper describes further studies on the intramolecular carbolithiation of propargylic acetals with aryllithiums leading to 2-vinylbenzofurans and 3-vinylfuropyridines. Attempts to extend the cascade to [4.4.0] binuclear heterocycles met with limited success. An alternative, two-step entry to such ring systems has been developed using the palladium-induced cyclization/hydride capture methodology. A new route to isoquinilinones from simple benzamides is also disclosed.     

Rh(III)-catalyzed C-H activation of primary benzamides and tandem cyclization with cyclic 2-diazo-1,3-diketones for the synthesis of isocoumarins

A simple and efficient Rh(III)-catalyzed C-H activation and tandem intramolecular cyclization for the synthesis of isocoumarins has been developed. The protocol uses easily available primary benzamides and cyclic 2-diazo-1,3-diketones as starting materials. This reaction proceeds via C-C and C-O bond formation in a single reaction vessel, and the corresponding isocoumarins were obtained in moderate to excellent yields (58%–97%). The well established protocol showed high functional group tolerance, which provided an efficient and alternative route to isocoumarin backbone.