Author Archive
Friday, January 18th, 2013
Michael Dewar[1] famously implicated a so-called π-complex in the benzidine rearrangement, back in the days when quantum mechanical calculations could not yet provide a quantitatively accurate reality check. Because this π-complex actually remains a relatively unusual species to encounter in day-to-day chemistry, I thought I would try to show in a simple way how it forms.
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References
- M. Dewar, and H. McNicoll, "Mechanism of the benzidine rearrangement", Tetrahedron Letters, vol. 1, pp. 22-23, 1959. https://doi.org/10.1016/s0040-4039(01)82765-9
Tags:energy, high energy molecules, Michael Dewar, Reaction Mechanism
Posted in Interesting chemistry | 2 Comments »
Wednesday, January 16th, 2013
If you search e.g. Scifinder for N,O-diphenyl hydroxylamine (RN 24928-98-1) there is just one literature citation, to a 1962 patent. Nothing else; not even a calculation (an increasing proportion of the molecules reported in Chemical Abstracts have now only ever been subjected to calculation, not synthesis). A search of Reaxys also offers only one hit[1] reporting one unsuccessful attempt in 1963 to prepare this compound. Again, nothing else. Yet show this structure to most organic chemists, and I venture to suggest few would immediately predict this (unless they are experts on benzidine rearrangements).‡
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References
- J.R. Cox, and M.F. Dunn, "The chemistry of O,N-diarylhydroxlamines - I", Tetrahedron Letters, vol. 4, pp. 985-989, 1963. https://doi.org/10.1016/s0040-4039(01)90757-9
Tags:energy, Historical, metal, pericyclic, Reaction Mechanism
Posted in Interesting chemistry | 7 Comments »
Sunday, January 13th, 2013
We tend to think of simple hydrocarbons as relatively inert and un-interesting molecules. However, a recent article[1], which was in fact highlighted by Steve Bachrach on his blog , asks what “The Last Globally Stable Extended Alkane” might be. In other words, at what stage does a straight-chain hydrocarbon fold back upon itself, and no significant population of the linear form remain? The answer was suggested to be C17H36. I thought I might subject this conformation to an NCI (non-covalent-interaction) analysis.
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References
- N.O.B. Lüttschwager, T.N. Wassermann, R.A. Mata, and M.A. Suhm, "The Last Globally Stable Extended Alkane", Angewandte Chemie International Edition, vol. 52, pp. 463-466, 2012. https://doi.org/10.1002/anie.201202894
Tags:conformational analysis, Steve Bachrach, Tutorial material
Posted in Uncategorised | 5 Comments »
Friday, January 11th, 2013
Kinetic isotope effects have become something of a lost art when it comes to exploring reaction mechanisms. But in their heyday they were absolutely critical for establishing the mechanism of the benzidine rearrangement[1]. This classic mechanism proceeds via bisprotonation of diphenyl hydrazine, but what happens next was the crux. Does this species rearrange directly to the C-C coupled intermediate (a concerted [5,5] sigmatropic reaction) or does it instead form a π-complex, as famously first suggested by Michael Dewar[2] [via TS(NN] and only then in a second step [via TS(CC)] form the C-C bond? Here I explore the isotope effects measured and calculated for this exact system.
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References
- H.J. Shine, H. Zmuda, K.H. Park, H. Kwart, A.G. Horgan, and M. Brechbiel, "Benzidine rearrangements. 16. The use of heavy-atom kinetic isotope effects in solving the mechanism of the acid-catalyzed rearrangement of hydrazobenzene. The concerted pathway to benzidine and the nonconcerted pathway to diphenyline", Journal of the American Chemical Society, vol. 104, pp. 2501-2509, 1982. https://doi.org/10.1021/ja00373a028
- M. Dewar, and H. McNicoll, "Mechanism of the benzidine rearrangement", Tetrahedron Letters, vol. 1, pp. 22-23, 1959. https://doi.org/10.1016/s0040-4039(01)82765-9
Tags:Henry Shine, Michael Dewar, Reaction Mechanism, TS(CC), Yamabe and co
Posted in Interesting chemistry | 1 Comment »
Tuesday, January 8th, 2013
Eagle-eyed footnote readers might have spotted one at the bottom of the post on the benzidine rearrangement. I was comparing the N-N bond lengths in crystal structures of known diprotonated hydrazines (~1.45Å) with the computed N-N bond length at the start point of the intrinsic reaction coordinate for the [5,5] sigmatropic rearrangement of di-N-protonated diphenylhydrazine (the active species in the benzidine rearrangement itself), which was some 1Å longer. This post explores the implications of this oddity.
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Tags:free energy barrier, Reaction Mechanism
Posted in Uncategorised | 3 Comments »
Sunday, January 6th, 2013
The benzidine rearrangement is claimed to be an example of the quite rare [5,5] sigmatropic migration[1], which is a ten-electron homologation of the very common [3,3] sigmatropic reaction (e.g. the Cope or Claisen). Some benzidine rearrangements are indeed thought to go through the [3,3] route[2]. The topic has been reviewed here[3].
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References
- H.J. Shine, K.H. Park, M.L. Brownawell, and J. San Filippo, "Benzidine rearrangements. 19. The concerted nature of the one-proton rearrangement of 2,2'-dimethoxyhydrazobenzene", Journal of the American Chemical Society, vol. 106, pp. 7077-7082, 1984. https://doi.org/10.1021/ja00335a035
- H.J. Shine, L. Kupczyk-Subotkowska, and W. Subotkowski, "Heavy-atom kinetic isotope effects in the acid-catalyzed rearrangement of N-2-naphthyl-N'-phenylhydrazine. Rearrangement is shown to be a concerted process", Journal of the American Chemical Society, vol. 107, pp. 6674-6678, 1985. https://doi.org/10.1021/ja00309a041
- H.J. Shine, "Reflections on the π‐complex theory of benzidine rearrangements", Journal of Physical Organic Chemistry, vol. 2, pp. 491-506, 1989. https://doi.org/10.1002/poc.610020702
Tags:higher energy, Historical, π-complex, pericyclic, Reaction Mechanism
Posted in Interesting chemistry | 4 Comments »
Saturday, January 5th, 2013
A simple correlation between a ring size and the hydrogen bonding as quantified by the O(Lp)/H-O σ* NBO interaction in that ring, indicated a 7- or 8-membered ring was preferred over smaller ones. Here is the same study, but this time using the π-electrons of an alkene as the electron donor.
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Tags:energy gap
Posted in Interesting chemistry | 4 Comments »
Friday, January 4th, 2013
Tags:basic search, Cambridge, CF 3, conformational analysis, gauche, metal, search takes, similar, Tutorial material
Posted in crystal_structure_mining, Interesting chemistry | 8 Comments »
