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- [[Category:Pyridines]]6 KB (745 words) - 15:05, 6 July 2010
- [[Category:Pyridines]]12 KB (1,566 words) - 16:43, 27 September 2010
- [[Category:Pyridines]]2 KB (278 words) - 16:44, 27 September 2010
- [[Category:Pyridines]]3 KB (320 words) - 15:07, 6 July 2010
- [[Category:Pyridines]]17 KB (2,299 words) - 09:15, 5 September 2010
- [[Category:Pyridines]]12 KB (1,641 words) - 15:32, 16 September 2010
- [[Category:Pyridines]]1 KB (161 words) - 09:42, 20 September 2010
- [[Category:Pyridines]]3 KB (420 words) - 09:44, 20 September 2010
- [[Category:Pyridines]]9 KB (1,146 words) - 09:44, 20 September 2010
- [[Category:Pyridines]]6 KB (859 words) - 09:45, 20 September 2010
- [[Category:Pyridines]]2 KB (179 words) - 09:45, 20 September 2010
- ...e contaminants.<ref>Sims, G. K. and E.J. O'Loughlin. 1989. Degradation of pyridines in the environment. CRC Critical Reviews in Environmental Control. 19(4):69 KB (9,885 words) - 10:12, 20 September 2010
- [[Category:Pyridines]]11 KB (1,551 words) - 22:06, 21 September 2010
- [[Category:Pyridines]]1 KB (163 words) - 13:12, 20 September 2010
- [[Category:Pyridines]]1 KB (156 words) - 13:12, 20 September 2010
- [[Category:Pyridines]]1 KB (141 words) - 13:16, 20 September 2010
- ...d by G. Morgan and F. H. Burstall in 1932 by the [[oxidative coupling]] of pyridines. This method, however, proceeded in low yields. In 1991, a more efficient The [[bis-triazinyl pyridines]] are topologically related to terpy in their binding to metals.4 KB (504 words) - 20:14, 21 September 2010
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5 KB (747 words) - 20:18, 21 September 2010
- [[Category:Pyridines]]1 KB (131 words) - 22:06, 21 September 2010
- [[Category:Pyridines]]991 bytes (113 words) - 22:06, 21 September 2010