- Hydroamination
The hydroamination reaction is the addition of an N-H bond across the C=C or C≡C bonds of an
alkene oralkyne . This is a highly atom economical method of preparing substituted amines that are attractive targets for organic synthesis and the pharmaceutical industry [cite journal | author = Kai C. Hultzsch | title =Catalytic asymmetric hydroamination of non-activated olefins | format = Review | journal =Organic & Biomolecular Chemistry | year = 2005 | volume = 3 | pages = 1819–1824 | doi = 10.1039/b418521h] [cite journal | author = Hartwig, J. F. | url = http://www.iupac.org/publications/pac/2004/pdf/7603x0507.pdf | title = Development of catalysts for the hydroamination of olefins | journal =Pure Appl. Chem. | year = 2004 | volume = 76 | pages = 507–516 | doi = 10.1351/pac200476030507] [cite journal | author = Shi, Y. H.; Hall, C.; Ciszewski, J. T.; Cao, C. S.; Odom, A. L. | title = Titanium dipyrrolylmethane derivatives: rapid intermolecular alkynehydroamination | journal =Chemical Communications | year = 2003 | volume = 5 | pages = 586–587 | doi =10.1039/b212423h] [cite journal | author = Pohlki, F., Doye, S. | title = The catalytic hydroamination of alkynes | journal = Chemical Society Reviews | volume = 32 | pages = 104–114 | doi = 10.1039/b200386b | year = 2003] [cite journal | author = Odom, A. L. | title = New C–N and C–C bond forming reactions catalyzed by titanium complexes | journal =Dalton Trans. | year = 2005 | volume = 2 | pages = 225–233 | doi = 10.1039/b415701j] .The hydroamination reaction is approximately thermodynamically neutral; there is a high activation barrier due to the repulsion of the electron-rich substrate and the amine nucleophile. The reaction also has a high negative entropy, making it unfavorable at high temperatures. As a result, catalysts are necessary for this reaction to proceed. [cite journal | author = Müller, T. E. Beller, M. | title = Metal-Initiated Amination of Alkenes and Alkynes | year = 1998 | journal =
Chemical Reviews | volume = 98 | issue = 2 | pages = 675–704 | doi = 10.1021/cr960433d] [cite journal | author = M. Beller, J. Seayad, A. Tillack and H. Jiao | title = Catalytic Markovnikov and anti-Markovnikov Functionalization of Alkenes and Alkynes: Recent Developments and Trends | year = 2004 | journal =Angewandte Chemie, International Edition | volume = 43 | issue = 26 | pages = 3368–3398 | doi = 10.1002/anie.200300616]Despite substantial effort, the development of a general catalytic process for this reaction remains elusive. Progress has been reported on the hydroamination of alkynes and alkenes using
lanthanide s and latetransition metal s. Although there have been many reports of the catalytic hydroamination reaction with group IV metals, there are far fewer describingenantioselective catalysis.Titanium andzirconium complexes catalyze inter-molecular hydroamination of alkynes and allenes. Both stoichiometric and catalytic variants were initially examined with zirconocene bis(amido) complexes. Titanocene amido and sulfonamido complexes catalyze the intra-molecular hydroamination of aminoalkenes via a [2+2] cycloaddition that forms the corresponding azametallacyclobutane, as illustrated in Figure 1. Subsequent protonolysis by incoming substrate gives the α-vinyl-pyrrolidine (1) or tetrahydropyridine (2) product. There is substantial experimental and theoretical evidence for the proposed imido intermediate and mechanism with neutral group IV catalysts.References
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