April 1st, 2015
The reduction of cinnamaldehyde by lithium aluminium hydride (LAH) was reported in a classic series of experiments[1],[2],[3] dating from 1947-8. The reaction was first introduced into the organic chemistry laboratories here at Imperial College decades ago, vanished for a short period, and has recently been reintroduced again.‡ The experiment is really simple in concept; add LAH to cinnamaldehyde and you get just reduction of the carbonyl group; invert the order of addition and you additionally get reduction of the double bond. Here I investigate the mechanism of these reductions using computation (ωB97XD/6-311+G(d,p)/SCRF=diethyl ether).
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References
- R.F. Nystrom, and W.G. Brown, "Reduction of Organic Compounds by Lithium Aluminum Hydride. I. Aldehydes, Ketones, Esters, Acid Chlorides and Acid Anhydrides", Journal of the American Chemical Society, vol. 69, pp. 1197-1199, 1947. https://doi.org/10.1021/ja01197a060
- R.F. Nystrom, and W.G. Brown, "Reduction of Organic Compounds by Lithium Aluminum Hydride. II. Carboxylic Acids", Journal of the American Chemical Society, vol. 69, pp. 2548-2549, 1947. https://doi.org/10.1021/ja01202a082
- F.A. Hochstein, and W.G. Brown, "Addition of Lithium Aluminum Hydride to Double Bonds", Journal of the American Chemical Society, vol. 70, pp. 3484-3486, 1948. https://doi.org/10.1021/ja01190a082
Tags: Al-H-Li bridge, dihydrocinnamyl alcohol reduction product, free energy, Imperial College, independent researcher, low energy escape route, lower energy alternative, metal, pence
Posted in reaction mechanism | 5 Comments »
March 20th, 2015
This might be seen as cranking a handle by producing yet more examples of acids ionised by a small number of water molecules. I justify it (probably only to myself) as an exercise in how a scientist might approach a problem, and how it linearly develops with time, not necessarily in the directions first envisaged. A conventional scientific narrative published in a conventional journal tells the story often with the benefit of hindsight, but rarely how the project actually unfolded chronologically.‡ So by devoting 7 posts to this, you can judge for yourself how my thoughts might have developed (and I am prepared to acknowledge this may only serve to show my ignorance).
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Tags: Mt. Everest, scientist
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March 17th, 2015
I do not play poker,‡ and so I had to look up a 5-4-3-2-1(A), which Wikipedia informs me is a 5-high straight flush, also apparently known as a steel wheel. In previous posts I have suggested acids which can be ionised by (probably) 5, 4, 3 or 1 discrete water molecules in the gas phase; now to try to track down a candidate for ionisation by the required two water molecules to form that straight flush.
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Tags: free energy, gas phase, steel wheel
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March 15th, 2015
My previous posts have covered the ionization by a small number of discrete water molecules of the series of halogen acids, ranging from HI (the strongest, pKa -10) via HF (weaker, pKa 3.1) to the pseudo-halogen HCN (the weakest, pKa 9.2). Here I try out some even stronger acids to see what the least number of water molecule needed to ionize these might be.
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Tags: Christopher Reed, Ohio, pence
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March 2nd, 2015
HCN is a weak acid (pKa +9.2, weaker than e.g. HF), although it does have an isomer, isocyanic acid or HNC (pka < +9.2 ?) which is simultaneously stronger and less stable. I conclude my halide acid series by investigating how many water molecules (in gas phase clusters) are required for ionisation of this “pseudo-halogen” acid.
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Tags: ionic systems
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February 28th, 2015
Why is this post orphaned from the previous? In order to have the opportunity of noting that treating iodine computationally can be a little different from the procedures used for F, Cl and Br.
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Tags: chemical magnetic shieldings, free energy/entropy, gas-phase cluster, Hawaii, pence
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February 27th, 2015
No doubt answers to the question posed in the previous post are already being obtained by experiment. Just in case that does not emerge in the next day or so, I offer a prediction here.
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Tags: pence, Postscript
Posted in General, Interesting chemistry | 9 Comments »
February 14th, 2015
According to Guggemos, Slavicek and Kresin, about 5-6![1]. This is one of those simple ideas, which is probably quite tough to do experimentally. It involved blasting water vapour through a pinhole, adding HCl and measuring the dipole-moment induced deflection by an electric field. They found “evidence for a noticeable rise in the dipole moment occurring at n≈5–6“.
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References
- N. Guggemos, P. Slavíček, and V.V. Kresin, "Electric Dipole Moments of Nanosolvated Acid Molecules in Water Clusters", Physical Review Letters, vol. 114, 2015. https://doi.org/10.1103/physrevlett.114.043401
Tags: energy, gas phase models, Java, pence, similar energy
Posted in Interesting chemistry, reaction mechanism | 1 Comment »
February 12th, 2015
The title of this post refers to the site http://howopenisit.org/ which is in effect a license scraper for journal articles. In the past 2-3 years in the UK, we have been able to make use of grants to our university to pay publishers to convert our publications into Open Access (also called GOLD). I thought I might check out a few of my recent publications to see what http://howopenisit.org/ makes of them.
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Tags: ACS, GBP, Royal Society of Chemistry, United Kingdom
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February 10th, 2015
Steganone is an unusual natural product, known for about 40 years now. The assignment of its absolute configurations makes for an interesting, on occasion rather confusing, and perhaps not entirely atypical story. I will start with the modern accepted stereochemical structure of this molecule, which comes in the form of two separately isolable atropisomers.
The first reported synthesis of this system in 1977 was racemic, and no stereochemistry is shown in the article (structure 2).[1] Three years later an “Asymmetric total synthesis of (-)steganone and revision of its absolute configuration” shows how the then accepted configuration (structure 1 in this article) needs to be revised to the enantiomer shown as structure 12 in the article[2] and matching the above representation. The system has continued to attract interest ever since[3],[4],[5],[6], not least because of the presence of axial chirality in the form of atropisomerism. Thus early on it was shown that the alternative atropisomer, the (aS,R,R) configuration initially emerges out of several syntheses, and has to be converted to the (aR,R,R) configuration by heating[3]. One could easily be fooled by such isomerism!
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References
- D. Becker, L.R. Hughes, and R.A. Raphael, "Total synthesis of the antileukaemic lignan (±)-steganacin", J. Chem. Soc., Perkin Trans. 1, pp. 1674-1681, 1977. https://doi.org/10.1039/p19770001674
- J. Robin, O. Gringore, and E. Brown, "Asymmetric total synthesis of the antileukaemic lignan precursor (-)steganone and revision of its absolute configuration", Tetrahedron Letters, vol. 21, pp. 2709-2712, 1980. https://doi.org/10.1016/s0040-4039(00)78586-8
- E.R. Larson, and R.A. Raphael, "Synthesis of (–)-steganone", J. Chem. Soc., Perkin Trans. 1, pp. 521-525, 1982. https://doi.org/10.1039/p19820000521
- A. Bradley, W.B. Motherwell, and F. Ujjainwalla, "A concise approach towards the synthesis of steganone analogues", Chemical Communications, pp. 917-918, 1999. https://doi.org/10.1039/a900743a
- M. Uemura, A. Daimon, and Y. Hayashi, "An asymmetric synthesis of an axially chiral biaryl via an (arene)chromium complex: formal synthesis of (–)-steganone", J. Chem. Soc., Chem. Commun., vol. 0, pp. 1943-1944, 1995. https://doi.org/10.1039/c39950001943
- B. Yalcouye, S. Choppin, A. Panossian, F.R. Leroux, and F. Colobert, "A Concise Atroposelective Formal Synthesis of (–)‐Steganone", European Journal of Organic Chemistry, vol. 2014, pp. 6285-6294, 2014. https://doi.org/10.1002/ejoc.201402761
Tags: free energy, lowest energy conformation, natural product, simulation, spectroscopy, unusual natural product, X-ray
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