- Selective synthesis of spiro and dispiro compounds using Mn(III)-based oxidation of tetracarbonyl compounds
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The Mn(III)-based oxidation of methylenebis(cyclohexanedione)s and methylenebis(piperidinedione)s as a tetracarbonyl compound was investigated under various conditions, selectively producing spiro dihydrofurans and dispiro cyclopropanes depending on the solvent. The mechanism for the formation of the spiro dihydrofurans and dispiro cyclopropanes was discussed. In addition, a simple synthesis of a new type of alkaloid, 3,4,6,7,8,10-hexahydro-1H-pyrano[3,2-c:5,6-c’]dipyridine-1,9(2H)-diones, was demonstrated.
- Hisano, Kazuki,Nishikawa, Satomi,Nishino, Hiroshi,Shibuya, Keisuke,Yokote, Suzuka
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- Synthesis of Spiro-dihydrofuran in the Presence of a Novel and Reusable Nanocatalyst Cu (II)-Glycerol/MCM-41
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The use of supported Cu complex on mesoporous as a novel, efficient, heterogeneous, reusable and green catalyst for the synthesis of spiro-dihydrofuran derivatives is reported. This methodology is effective for the reaction of dimedone with a wide range of aldehyde in the presence of BrCN and triethylamine. The structure of catalyst was characterized by different techniques such as EDX, SEM, TGA, ICP-OES, XRD, TEM, FT-IR, and BET. The recycled nanocatalyst was used at least five times with no significant loss of its activity.
- Batmani, Hana,Noroozi Pesyan, Nader,Havasi, Forugh,Aalinejad, Michael
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- A new iodonium ylide-based three-component reaction leading to 2-spirosubstituted dihydrofurans under microwave irradiation
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A new iodonium ylide-based three-component reaction for the synthesis of highly functionalized 2-spirosubstituted dihydrofurans starting from readily available common reactants has been developed under microwave irradiation. The procedure is facile, avoid
- Tu, Xing-Chao,Yu, Yan,Tu, Man-Su,Jiang, Bo,Li, Chao,Tu, Shu-Jiang
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p. 436 - 441
(2014/04/17)
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- A pseudo multi-component electrochemical synthesis of spiro dihydrofuran derivatives
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An electrochemical strategy to the assembly of tricyclic spiro dihydrofuran scaffold via the reaction of aryl aldehyde and dimedone has been developed successfully. This protocol has the advantages of high yields, wide application scope and an environmental benign procedure compared with the reported methods.
- Yao, Changsheng,Wang, Ying,Li, Tuanjie,Yu, Chenxia,Li, Liang,Wang, Chao
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p. 10593 - 10597
(2013/11/19)
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- Selective formation of spiro dihydrofurans from one-pot reaction of dimedone with BrCN and aldehydes in the presence of Et3N
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Reaction of 5,5-dimethylcyclohexane-1,3-dione (dimedone), aldehydes and cyanogen bromide in the presence of triethylamine leads to the selective formation of spiro dihydrofurans in moderate to good yields at room temperature.
- Noroozi Pesyan, Nader,Shokr, Alireza,Behroozi, Mohammad,Sahin, Ertan
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p. 565 - 575
(2013/07/27)
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- Selective formation of spiro dihydrofurans and cyclopropanes through unexpected reaction of aldehydes with 1,3-dicarbonyl compounds
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An efficient methodology for the oxidative addition reaction of various aldehydes with 5,5-dimethylcyclohexane-1,3-dione and 1,3-indandione to selectively afford spiro dihydrofuran and cyclopropane derivatives, promoted by molecular iodine and dimethylami
- Wang, Guan-Wu,Gao, Jie
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supporting information; experimental part
p. 2385 - 2388
(2009/10/10)
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- Single-pot synthesis of spiroannulated dihydrofurans by iodine-ammonium acetate-mediated reaction of dimedone with aldehydes
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Iodine-ammonium acetate-mediated annealation of dimedone with aldehydes led to facile formation of spirodihydrofuran in good yields through tandem Knoevenagel-Michael iodonation and cyclodehydroiodonation reactions in a single pot.
- Sahu, Devi Prasad,Giri, Santosh Kumar,Varshney, Vandana,Kumar, Shailesh
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experimental part
p. 3406 - 3419
(2009/12/03)
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