Trans alkenylpyridine and alkenylamine complexes of platinum

M P Shaver, C M Vogels, A I Wallbank, T L Hennigar, K Biradha, M J Zaworotko, S A Westcott

Research output: Contribution to journalArticlepeer-review

Abstract / Description of output

Addition of cis-cyclooctene (coe) to K2PtCl4 gives trans-[PtCl2(coe)](2) (1), which reacts with excess coe to give trans-PtCl2(coe)(2) (2). Compound 2 was characterized by an X-ray diffraction study and crystals were found to be triclinic, a = 5.7838(5), b = 7.4347(6), c = 9.9972(9) A, alpha = 83.924(1), beta = 87.844(2), gamma = 73.546(1), Z = 1, with space group P (1) over bar. Addition of 4-vinylpyridine (4vp) to 1 gave trans-PtCl2(4vp)(2) (5) which was also characterized by an X-ray diffraction study. Crystals of 5 were monoclinic, a = 8.2255(6), b = 12.8254(10), c = 6.9624(5) A, beta = 98.8230(10), Z = 2, with space group P2(1)/c. Although alkenylamines react with 1 to give a mixture of products, addition of one equivalent of apve (H2NCH2CH2CH2OCH=CH2) to 1 cleanly afforded the organometallic product trans-PtCl2(coe)(thmo) (thmo = tetrahydro-2-methyl-1,3-oxazine) arising from a metal-catalyzed intramolecular hydroamination of the starting alkenylamine. Initial investigations into the functionalization of metal complexes containing pendant alkene groups have shown that catecholborane can be added in some cases, using a rhodium catalyst, to give the corresponding organoboronate ester platinum compounds.

Original languageEnglish
Pages (from-to)568-576
Number of pages9
JournalCanadian Journal of Chemistry
Volume78
Issue number5
Publication statusPublished - Aug 2000

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