Molecular iodine: a powerful catalyst for the easy and efficient synthesis of quinoxalines
暂无分享,去创建一个
[1] M. Bakker,et al. Discovery of a new series of centrally active tricyclic isoxazoles combining serotonin (5-HT) reuptake inhibition with alpha2-adrenoceptor blocking activity. , 2005, Journal of medicinal chemistry.
[2] A. Monge,et al. Synthesis of new quinoxaline-2-carboxylate 1,4-dioxide derivatives as anti-Mycobacterium tuberculosis agents. , 2005, Journal of medicinal chemistry.
[3] Feng-peng Wang,et al. Preparation of bisindolylalkanes from N-tert-butanesulfinyl aldimines , 2005 .
[4] Jiann T. Lin,et al. Chromophore-labeled quinoxaline derivatives as efficient electroluminescent materials , 2005 .
[5] A. Gomtsyan,et al. Novel transient receptor potential vanilloid 1 receptor antagonists for the treatment of pain: structure-activity relationships for ureas with quinoline, isoquinoline, quinazoline, phthalazine, quinoxaline, and cinnoline moieties. , 2005, Journal of medicinal chemistry.
[6] Avijit K. Adak,et al. A novel one-pot two-component synthesis of tricyclic pyrano[2,3-b]quinoxalines , 2005 .
[7] R. Bhosale,et al. An efficient, high yield protocol for the one-pot synthesis of dihydropyrimidin-2(1H)-ones catalyzed by iodine , 2004 .
[8] Yanmei Dong,et al. Highly efficient chemoselective deprotection of O,O-acetals and O,O-ketals catalyzed by molecular iodine in acetone. , 2004, The Journal of organic chemistry.
[9] C. Lindsley,et al. General microwave-assisted protocols for the expedient synthesis of quinoxalines and heterocyclic pyrazines , 2004 .
[10] Gang Zhao,et al. Quinoxaline excision: a novel approach to tri- and diquinoxaline cavitands. , 2004, Organic letters.
[11] J. Banerjee,et al. Efficient, selective deprotection of aromatic acetates catalyzed by Amberlyst-15 or iodine , 2003 .
[12] L. Hegedus,et al. Synthesis of 5,12-dioxocyclam nickel (II) complexes having quinoxaline substituents at the 6 and 13 positions as potential DNA bis-intercalating and cleaving agents. , 2003, The Journal of organic chemistry.
[13] B. Bandgar,et al. Molecular iodine-catalyzed efficient and highly rapid synthesis of bis(indolyl)methanes under mild conditions , 2003 .
[14] J. Yadav,et al. Iodine as novel reagent for the 1,2-addition of trimethylsilyl cyanide to ketones including α,β-unsaturated ketones , 2002 .
[15] Avijit K. Adak,et al. The first microwave-assisted regiospecific synthesis of 6-substituted pterins , 2002 .
[16] R. Reynolds,et al. Synthesis and antimycobacterial activity of pyrazine and quinoxaline derivatives. , 2002, Journal of medicinal chemistry.
[17] V. Lynch,et al. Quinoxaline-bridged porphyrinoids. , 2002, Journal of the American Chemical Society.
[18] S. Antoniotti,et al. Direct and catalytic synthesis of quinoxaline derivatives from epoxides and ene-1,2-diamines , 2002 .
[19] N. Iranpoor,et al. A high yielding preparation of α-trimethylsilyloxyphosphonates by silylation of α-hydroxyphosphonates with HMDS catalyzed by iodine , 2002 .
[20] N. Ede,et al. Solid-phase synthesis of quinoxalines on SynPhase™ Lanterns , 2001 .
[21] N. Iranpoor,et al. Iodine catalyzes efficient and chemoselective thioacetalization of carbonyl functions, transthioacetalization of O,O- and S,O-acetals and acylals. , 2001, The Journal of organic chemistry.
[22] M. Subrahmanyam,et al. Single-step synthesis of 2-methylquinoxaline from 1,2-phenylenediamine and 1,2-propanediol over modified HY zeolites , 2001 .
[23] I. Sage,et al. Synthesis and device characterisation of side-chain polymer electron transport materials for organic semiconductor applications , 2001 .
[24] N. Xekoukoulotakis,et al. Synthesis of quinoxalines by cyclization of α-arylimino oximes of α-dicarbonyl compounds , 2000 .
[25] M. Ismail,et al. Synthesis and Antimicrobial Activities of Some Novel Quinoxalinone Derivatives , 2000 .
[26] Donal D. C. Bradley,et al. Use of poly(phenyl quinoxaline) as an electron transport material in polymer light‐emitting diodes , 1996 .
[27] Kyoung-Mahn Kim,et al. Unusual iodine catalyzed lactonization of γ-methyl-γ,δ-pentenoic acids: A facile synthesis of γ,γ-dimethyl-γ-butyrolactones , 1996 .
[28] R. G. Browne,et al. 4-Amino[1,2,4]triazolo[4,3-a]quinoxalines. A novel class of potent adenosine receptor antagonists and potential rapid-onset antidepressants. , 1990, Journal of medicinal chemistry.
[29] K. Makino,et al. Regent progress in the quinoxaline chemistry. Synthesis and biological activity , 1988 .
[30] D. Williams,et al. Structure revision of the antibiotic echinomycin. , 1975, Journal of the American Chemical Society.
[31] K. Katagiri,et al. The mode of action of quinoxaline antibiotics. Interaction of quinomycin A with deoxyribonucleic acid. , 1967, The Journal of antibiotics.
[32] G. M. Badger,et al. The chemistry of heterocyclic compounds , 1961 .