Archive for the ‘Interesting chemistry’ Category

Long C=C bonds.

Thursday, December 1st, 2016
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Following on from a search for long C-C bonds, here is the same repeated for C=C double bonds.

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Long C-C bonds.

Wednesday, November 30th, 2016
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In an earlier post, I searched for small C-C-C angles, finding one example that was also accompanied by an apparently exceptionally long C-C bond (2.18Å). But this arose from highly unusual bonding giving rise not to a single bond order but one closer to one half! How long can a “normal” (i.e single) C-C bond get, a question which has long fascinated chemists.

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The largest C-C-C angle?

Tuesday, November 1st, 2016
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I am now inverting the previous question by asking what is the largest angle subtended at a chain of three connected 4-coordinate carbon atoms? Let’s see if further interesting chemistry can be unearthed.

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More stereoelectronics galore: hexamethylene triperoxide diamine.

Thursday, September 22nd, 2016
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Compounds with O-O bonds often have weird properties. For example, artemisinin, which has some fascinating stereoelectronics. Here is another such, recently in the news and known as HMTD (hexamethylene triperoxide diamine). The crystal structure was reported some time ago[1] and the article included an inspection of the computed wavefunction. However this did not look at the potential stereoelectronics in this species, which I now address here.

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References

  1. A. Wierzbicki, E.A. Salter, E.A. Cioffi, and E.D. Stevens, "Density Functional Theory and X-ray Investigations of P- and M-Hexamethylene Triperoxide Diamine and Its Dialdehyde Derivative", J. Phys. Chem. A, vol. 105, pp. 8763-8768, 2001. http://dx.doi.org/10.1021/jp0123841

A periodic table for anomeric centres, this time with quantified interactions.

Monday, August 8th, 2016
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The previous post contained an exploration of the anomeric effect as it occurs at an atom centre X for which the effect is manifest in crystal structures. Here I quantify the effect, by selecting the test molecule MeO-X-OMe, where X is of two types:

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A periodic table for anomeric centres.

Saturday, August 6th, 2016
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In the last few posts, I have explored the anomeric effect as it occurs at an atom centre X. Here I try to summarise the atoms for which the effect is manifest in crystal structures.

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Stereoelectronic effects galore: bis(trifluoromethyl)trioxide.

Thursday, August 4th, 2016
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Here is a little molecule that can be said to be pretty electron rich. There are lots of lone pairs present, and not a few electron-deficient σ-bonds. I thought it might be fun to look at the stereoelectronic interactions set up in this little system.

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Autoionization of hydrogen fluoride.

Sunday, April 24th, 2016
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The autoionization of water involves two molecules transfering a proton to give hydronium hydroxide, a process for which the free energy of reaction is well known. Here I ask what might happen with the next element along in the periodic table, F.

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Deuteronium deuteroxide. The why of pD 7.435.

Friday, April 22nd, 2016
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Earlier, I constructed a possible model of hydronium hydroxide, or H3O+.OH– One way of assessing the quality of the model is to calculate the free energy difference between it and two normal water molecules and compare the result to the measured difference. Here I apply a further test of the model using isotopes.

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Oxane oxide: a tautomer of hydrogen peroxide.

Friday, April 15th, 2016
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If H3N+-O is viable compared with its tautomer H2N-OH when carrying water bridges, then why not try H2O+-O vs HO-OH?

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