You might have noticed the occasional reference here to the upcoming centenary of the publication of Gilbert N. Lewis’ famous article entitled “The atom and the molecule“.[cite]10.1021/ja02261a002[/cite] A symposium exploring his scientific impact and legacy will be held in London on March 23, 2016, exactly 70 years to the day since his death. A list of the speakers and their titles is shown below; there is no attendance fee, but you must register as per the instructions below.
Archive for the ‘Interesting chemistry’ Category
The atom and the molecule: A one-day symposium on 23 March, 2016 celebrating Gilbert N. Lewis.
Friday, December 11th, 2015More stereo electronics: the Eschenmoser double fragmentation and guerrilla tutorials.
Thursday, December 10th, 2015The layout of floor 2 of the chemistry department here contains a number of small rooms which function as tutorial areas. Each has a (non-interactive) whiteboard used by students and tutors for, inter-alia, thought-showering. It was in one such room that I found myself with three colleagues this monday afternoon. We soon all sensed something not quite right about the room; it slowly dawned that the whiteboard was entirely devoid of thoughts (it is normally left adorned with chemical hieroglyphics). Before we departed, one of our number crept up to the board and showered the following (the red bit only followed by a ?; thanks Willie!). The chemistry equivalent you might say of Guerrilla gardening. The product shown in blue below is for your benefit here. It is an example of a double fragmentation reaction; by an odd coincidence following on nicely from the previous post.
A tutorial problem in stereoelectronic control. A Grob alternative to the Tiffeneau-Demjanov rearrangement?
Saturday, November 28th, 2015In answering tutorial problems, students often need skills in deciding how much time to spend on explaining what does not happen, as well as what does. Here I explore alternatives to the mechanism outlined in the previous post to see what computation has to say about what does (or might) not happen.
A tutorial problem in stereoelectronic control. The Tiffeneau-Demjanov rearrangement as part of a prostaglandin synthesis.
Monday, November 23rd, 2015This reaction emerged a few years ago (thanks Alan!) as a tutorial problem in organic chemistry, in which students had to devise a mechanism for the reaction and use this to predict the stereochemical outcome at the two chiral centres indicated with *. It originates in a brief report from R. B. Woodward’s group in 1973 describing a prostaglandin synthesis,[cite]10.1021/ja00801a066[/cite] the stereochemical outcome being crucial. Here I take a look at this mechanism using computation.
Interactions responsible for the lowest energy structure of the trimer of fluoroethanol.
Friday, October 23rd, 2015Steve Bachrach on his own blog has commented on a recent article[cite]10.1002/anie.201505934[/cite] discussing the structure of the trimer of fluoroethanol. Rather than the expected triangular form with three OH—O hydrogen bonds, the lowest energy form only had two such bonds, but it matched the microwave data much better. Here I explore this a bit more.
Impressions of China 2: The colour of porcelain.
Wednesday, October 14th, 2015In Jingdezhen an Imperial Kiln was built in 1369 to produce porcelain that was “white as jade, thin as paper, bright as a mirror and tuneful as a bell”. It’s the colours of the glazes that caught my eye, achieved by a combination of oxidative and reductive firing in the kiln, coupled with exquisite control of the temperature.
Impressions of China. New units of speed and old ways of counting.
Friday, October 9th, 2015This comes to you from China, and the city of Suzhou. To set the scene, cities in China have a lot of motorbikes. Electric ones. With their own speed units, a % of Panda speed. 
Isoelectronic games: the CO analogue of diazirines as an intriguing species?
Thursday, September 24th, 2015How does an anaesthetic work? Surprisingly, it is only recently[cite]10.1038/nchembio.1340[/cite] that the possible binding sites of the anaesthetic propofol (2,6-di-isopropylphenol) have been identified using a technique known as photoaffinity labelling.[cite]10.1016/j.bmc.2011.06.066[/cite] A propofol analogue was constructed[cite]10.1038/nchembio.1340[/cite] by replacing one of the isopropyl groups with a trifluoromethyl diazirine group (R=CF3, X=Y=N below). Upon photolysis, this species looses nitrogen and forms a carbene as a reactive species, which with further chemistry binds covalently[cite]10.1016/j.bmc.2011.06.066[/cite] to adjacent amino acids in the binding pocket.These modified segments could then be analysed by mass spectrometry.[cite]10.1038/nchembio.1340[/cite] An isomer of diazirine is diazomethane, which is some 11 kcal/mol lower in free energy, but fortunately the diazirene is preventing from thermally isomerising to this species by a large kinetic barrier. That was the intro; now for a connection.‡ I recently attended a presentation on another medical topic, the therapeutic uses of carbon monoxide.[cite]10.1038/nrd3228[/cite] In higher concentrations it is notoriously lethal, but with appropriate delivery it can be therapeutic. So, intertwingling, I asked myself what the properties of the carbon monoxide isoelectronic analogue of a diazirine might be (X=C, Y=O below).
Intermolecular atom-atom bonds in crystals? The O…O case.
Saturday, July 25th, 2015I recently followed this bloggers trail; link1 → link2 to arrive at this delightful short commentary on atom-atom bonds in crystals[cite]10.1107/S2052252515002006[/cite] by Jack Dunitz. Here he discusses that age-old question (to chemists), what is a bond? Even almost 100 years after Gilbert Lewis’ famous analysis,[cite]10.1021/ja02261a002[/cite] we continue to ponder this question. Indeed, quite a debate on this topic broke out in a recent post here. My eye was caught by one example in Jack's article: "The close stacking of planar anions, as occurs in salts of croconic acid …far from producing a lowering of the crystal energy, this stacking interaction in itself leads to an increase by several thousand kJ mol−1 arising from Coulombic repulsion between the doubly negatively charged anions" I thought I might explore this point a bit further in this post.