913193-48-3Relevant academic research and scientific papers
Palladium-Catalyzed Desulfitative Cross-Coupling Reaction of Sodium Sulfinates with Propargylic Carbonates
Qin, Anni,Zhu, Guirong,Chen, Qin,Qian, Hui,Ma, Shengming
, p. 4656 - 4660 (2019)
Desulfitative cross-coupling of propargylic carbonates with sodium sulfinates has been observed. The reaction exhibited good functional group compatibility affording allenes as a single product. Potential anticancer activities of these allene products were also studied. (Figure presented.).
Selective Insertion of Alkynes into C-C σ Bonds of Indolin-2-ones: Transition-Metal-Free Ring Expansion Reactions to Seven-Membered-Ring Benzolactams or Chromone Derivatives
Wang, Mengdan,Yang, Yajie,Song, Bo,Yin, Liqiang,Yan, Shuhui,Li, Yanzhong
supporting information, p. 155 - 159 (2020/01/03)
An unprecedented ring expansion reaction of indolin-2-ones with alkynyl ketones under transition-metal-free conditions has been developed. Base-promoted selective cleavage of a C-C σ bond of the amide is the key in this process, which provides a straightf
Access to 2-Alkyl/Aryl-4-(1 H)-Quinolones via Orthogonal "nH3" Insertion into o-Haloaryl Ynones: Total Synthesis of Bioactive Pseudanes, Graveoline, Graveolinine, and Waltherione F
Mehta, Goverdhan,Nerella, Sharanya,Pabbaraja, Srihari,Singh, Shweta
supporting information, (2020/02/22)
An efficient one-pot synthesis of 4-(1H)-quinolones through an orthogonal engagement of diverse o-haloaryl ynones with ammonia in the presence of Cu(I), involving tandem Michael addition and ArCsp2-N coupling, is presented. The substrate scope of this convenient protocol, wherein ammonium carbonate acts as both an in situ ammonia source and a base toward diverse 2-substituted 4-(1H)-quinolones, has been mapped and its efficacy validated through concise total synthesis of bioactive natural products pseudanes (IV, VII, VIII, and XII), graveoline, graveolinine, and waltherione F.
Bifunctional phosphine ligand-enabled gold-catalyzed direct cycloisomerization of alkynyl ketones to 2,5-disubstituted furans
Hu, Xiaojun,Zhou, Bingwei,Jin, Hongwei,Liu, Yunkui,Zhang, Liming
supporting information, p. 7297 - 7300 (2020/07/14)
An efficient synthesis of 2,5-disubstituted furans directly from alkynyl ketones has been developed via tandem gold(i)-catalyzed isomerization of alkynyl ketones to allenyl ketones and cycloisomerization. The key to the success of this chemistry is the use of a biphenyl-2-ylphosphine ligand featuring a critical remote tertiary amino group.
Vanadium(V)-mediated rearrangement/halogenation cascade: Synthesis of α-haloenones from propargyl alcohols
Zhao, Meng,Mohr, Justin T.
, p. 4115 - 4124 (2017/06/29)
A method is described for the oxidative Meyer–Schuster-type rearrangement of propargylic alcohols to (Z)-α-chloro- and α-iodoenones using VOCl3 as a multifunctional reagent. The vanadium reagent is found to serve as rearrangement promoter as well as an active chlorenium ion donor. Yields are improved when VOCl3 is employed in conjunction with N-halosuccinimide reagents, giving some insights into the complex mechanism.
Base-Promoted Tandem Reaction towards Conjugated Dienone or Chromone Derivatives with a Cyano Group: Insertion of Alkynes into C–C σ-Bonds of 3-Oxopropanenitriles
Yao, Qiyi,Kong, Lingkai,Zhang, Fangfang,Tao, Xianghua,Li, Yanzhong
supporting information, p. 3079 - 3084 (2017/09/13)
Base-promoted insertion reactions of alkynes into the C–C σ-bonds of α-cyano ketones were established to construct highly functionalized conjugated olefins or chromone derivatives via transition metal-free tandem reactions. These reactions are initialized through the nucleophilic attack of α-cyano ketones to alkynones followed by intramolecular nucleophilic addition/ring-opening to furnish the cyano-containing alkenes. In the cases of alkynones bearing an ortho-halide-substituted aryl ring, a further C–O bond coupling reaction occurs to afford chromone derivatives in good to high yields. Various alkynones bearing alkyl or aryl substituents were compatible in the reaction. This reaction has the potential to become a general synthetic protocol for the preparation of cyano-substituted olefins and chromones due to the abundance of easily accessible starting materials possessing diverse substituent groups. (Figure presented.).
Insertion of Isolated Alkynes into Carbon–Carbon σ-Bonds of Unstrained Cyclic β-Ketoesters via Transition-Metal-Free Tandem Reactions: Synthesis of Medium-Sized Ring Compounds
Zhou, Yuanyuan,Tao, Xianghua,Yao, Qiyi,Zhao, Yulei,Li, Yanzhong
supporting information, p. 17936 - 17939 (2016/12/16)
The transition-metal-free insertion of isolated alkynes into carbon–carbon σ-bonds of unstrained cyclic β-dicarbonyl compounds has been reported. These tandem reactions offer an efficient synthesis of medium-sized ring or fused-ring compounds through ring expansion. The methodology has the potential to be widely used throughout organic synthesis due to the easily accessible starting materials and mild reaction conditions.
Highly diastereoselective synthesis of cyclopentenones via a one-pot gold catalysis, Nazarov cyclization and alkylation cascade
Liu, Meng-Qi,Zhou, Ai-Hua,Jiang, Shuang,Wang, Jia-Qi,Ye, Long-Wu
supporting information, p. 2161 - 2167 (2014/08/18)
Starting from readily available propargylic carboxylates, three sequential transformations [gold-catalyzed tandem reaction, scandium(III) trifluoromethanesulfonate catalyzed Nazarov cyclization, alkylation reaction] in a one-pot process led to the formation of cyclopentenone derivatives in excellent diastereoselectivities and moderate to good overall yields. Georg Thieme Verlag Stuttgart. New York.
Ligand influence in the selective gold-mediated synthesis of allenes
Nun, Pierrick,Gaillard, Sylvain,Slawin, Alexandra M. Z.,Nolan, Steven P.
supporting information; experimental part, p. 9113 - 9115 (2010/12/29)
The use of [(IPr)AuOH] permits the generation of gold(i)-amine complexes by a silver-free protocol. These in situ or well-defined complexes are used in a straightforward synthetic route to substituted allenes from propargylic acetates. The catalytic activ
