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13C NMR (101 MHz, CDCl3) ¦Ä 126.12,126.32,127.72,130.17,131.91,133.77,139.23,161.00 |
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ÖÁ×ðľ³æ (ÖªÃû×÷¼Ò)
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jinweiyang: ½ð±Ò+8, ¡ïÓаïÖú 2015-01-27 19:36:13
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jinweiyang: ½ð±Ò+8, ¡ïÓаïÖú 2015-01-27 19:36:13
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1 . compound 8 ÏàËƶÈ:87.5% Magnetic Resonance in Chemistry 1985 23 795-799 Carbon-13 and proton NMR spectra of 1(2H)-isoquinolinone, 1(2H)-phthalazinone, 4(3H)-quinazolinone and their substituted derivatives S. L. Spassov, I. A. Atanassova and M. A. Haimova Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 2 . 5-((3-Chlorophenylthio)methyl)-1H-pyrazol-3(2H)-one ÏàËƶÈ:77.7% Bioorganic & Medicinal Chemistry 2011 19 613-622 Arylsulfanyl pyrazolones block mutant SOD1-G93A aggregation. Potential application for the treatment of amyotrophic lateral sclerosis Tian Chen, Radhia Benmohamed, Anthony C. Arvanites, Hantamalala Ralay Ranaivo,Richard I. Morimoto, Robert J. Ferrante , D. Martin Watterson, Donald R. Kirsch,Richard B. Silverman Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 3 . 4-methylthiophenyl-phenyl-selenide ÏàËƶÈ:77.7% Tetrahedron 2013 69 5342-5347 Copper-catalyzed C¨CSe coupling of diphenyl diselenide with arylboronic acids at room temperature Bo Zheng, Ying Gong, Hua-Jian Xu Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 4 . 2-chloro-1-(4-methylsulfanylphenyl)-1H-imidazole C10H9N2ClS ÏàËƶÈ:75% Heterocycles 2005 65 2721-2728 Synthesis of 1,2-Disubstituted Imidazoles via Cross-Coupling and Substitution Reactions Ingo Langhammer and Thomas Erker* Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 5 . 2,2'-(1,3-phenylene)bis(1H-naphtho[2,3-d]imidazole-4,9-dione) C28H14N4O4 ÏàËƶÈ:75% Journal of Heterocyclic Chemistry 2011 48 787-791 Facile synthesis of new imidazoles from direct reaction of 2,3-diamino-1,4-naphthoquinone with aldehydes Ashraf A. Aly, Alaa A. Hassan, Alan B. Brown, Kamal M. El-Shaieb and Tarek M. I. Bedair Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 6 . di(o-tolyl)sulfane ÏàËƶÈ:75% European Journal of Organic Chemistry 2011 7331-7338 A Highly Efficient Method for the Copper-Catalyzed Selective Synthesis of Diaryl Chalcogenides from Easily Available Chalcogen Sources Yaming Li, Caiping Nie, Huifeng Wang, Xiaoying Li, Francis Verpoort and Chunying Duan Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 7 . 5-bromo-1,3-isobenzofurandione C8H3O3Br ÏàËƶÈ:75% Journal of Medicinal Chemistry 1993 36 3417-3423 Conformationally restricted analogs of remoxipride as potential antipsychotic agents Mark H. Norman, James L. Kelley, Elizabeth B. Hollingsworth Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 8 . 9-bromoanthracene ÏàËƶÈ:75% Molecules 2013 18 398-407 Efficient Indium-Mediated Dehalogenation of Aromatics in Ionic Liquid Media Álvaro F. Cañete, Cristian O. Salas and Flavia C. Zacconi Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 9 . 5-(4'-bromophenyl)-2-methyloxazole ÏàËƶÈ:75% Tetrahedron 2013 69 2961-2970 Various oxidative reactions with novel ion-supported (diacetoxyiodo)benzenes Masataka Iinuma, Katsuhiko Moriyama, Hideo Togo Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 10 . 2,6-dimethylanthracene ÏàËƶÈ:75% The Chinese Pharmaceutical Journal 2002 54 245-257 Synthesis and Biological Activity of 2,6- and 2,7-Disubstituted Anthraquinones Chin-Sheng Wu*, Wen-Chien Chiu, Jih-Pyang Wang and Sheng-Chu Kuo Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 11 . compound 5 ÏàËƶÈ:75% Canadian Journal of Chemistry 1979 57 3168-3170 Carbon-13 nuclear magnetic resonance spectra of oxazoles Henk Hiemstra, Hendrik A. Houwing, Okko Possel, Albert M. van Leusen Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 12 . 2-(10-(thiophen-2-yl)anthracen-9-yl)thiophene C22H14S2 ÏàËƶÈ:75% Tetrahedron 2014 70 1176-1186 Linkage position influences of anthracene and tricyanovinyl groups on the opto-electrical and photovoltaic properties of anthracene-based organic small molecules Vellaiappillai Tamilavan, Myungkwan Song, Rajalingam Agneeswari, Myung Ho Hyun Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 13 . (R)-2-Chloro-1-(3,4-dichlorophenyl)ethan-1-ol ÏàËƶÈ:75% Journal of the Brazilian Chemical Society 2010 21 1509-1516 Candida tropicalis CE017: a New Brazilian Enzymatic Source for the Bioreduction of Aromatic Prochiral Ketones Gizelle A. B. Vieira, Daniel M. de Freitas Araujo, Telma L. G. Lemos, Marcos Carlos de Mattos, Maria da Conceição F. de Oliveira, Vânia M. M. Melo, Gonzalo de Gonzalo, Vicente Gotor-Fern¨¢ndez and Vicente Gotor Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 14 . di(2-methylphenyl) selenide C14H14Se ÏàËƶÈ:75% Tetrahedron 2012 68 10510-10515 Copper-catalyzed chalcogenation of aryl iodides via reduction of chalcogen elements by aluminum or magnesium Nobukazu Taniguchi Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 15 . Diphenyl sulfide C12H10S ÏàËƶÈ:75% Tetrahedron 2012 68 10510-10515 Copper-catalyzed chalcogenation of aryl iodides via reduction of chalcogen elements by aluminum or magnesium Nobukazu Taniguchi Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 16 . 2-Methylbenzoic acid ÏàËƶÈ:75% Tetrahedron 2013 69 8929-8935 Efficient method for the oxidation of aldehydes and diols with tert-butylhydroperoxide under transition metal-free conditions Tanveer Mahammadali Shaikh, Fung-E Hong Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ 17 . 1,4-bis(2-thienyl) benzopyridazine ÏàËƶÈ:75% Chinese Journal of Chemistry 2013 31 1397-1403 Synthesis and Physical Properties of Benzopyridazine-Based Conjugated Molecules Yuezeng Su, Wei Xu, Feng Qiu, Dongqing Wu, Ping Liu, Minzhao Xue and Fan Zhang Structure 13C NMR Structure & 13C NMR ̼Æ×Ä£Äâͼ |
2Â¥2015-01-27 10:55:37
