Posts Tagged ‘Chemistry’
Thursday, May 2nd, 2019
Ken Houk’s group has recently published this study of cycloaddition reactions, using a combination of classical transition state location followed by molecular dynamics trajectory calculations,[1] and to which Steve Bachrach’s blog alerted me. The reaction struck me as being quite polar (with cyano groups) and so I took a look at the article to see what both the original[2] experimental conditions were and how the new simulations compared. The reaction itself is shown below.
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References
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X. Xue, C.S. Jamieson, M. Garcia-Borràs, X. Dong, Z. Yang, and K.N. Houk, "Ambimodal Trispericyclic Transition State and Dynamic Control of Periselectivity", Journal of the American Chemical Society, vol. 141, pp. 1217-1221, 2019. http://dx.doi.org/10.1021/jacs.8b12674
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C.Y. Liu, and S.T. Ding, "Cycloadditions of electron-deficient 8,8-disubstituted heptafulvenes to electron-rich 6,6-disubstituted fulvenes", The Journal of Organic Chemistry, vol. 57, pp. 4539-4544, 1992. http://dx.doi.org/10.1021/jo00042a039
Tags:Chemistry, computational chemistry, Implicit solvation, Ken Houk, Molecular dynamics, Molecular modelling, Natural sciences, Physical sciences, Solutions, Solvent, Solvent model, Solvents, Steve Bachrach, Theoretical chemistry
Posted in reaction mechanism | 2 Comments »
Thursday, April 25th, 2019
Previously, I explored (computationally) the normal vibrational modes of Co(II)-tetraphenylporphyrin (CoTPP) as a “flattened” species on copper or gold surfaces for comparison with those recently imaged[1]. The initial intent was to estimate the “flattening” energy. There are six electronic possibilities for this molecule on a metal surface. Respectively positively, or negatively charged and a neutral species, each in either a low or a high-spin electronic state. I reported five of these earlier, finding each had quite high barriers for “flattening” the molecule. For the final 6th possibility, the triplet anion, the SCF (self-consistent-field) had failed to converge, but for which I can now report converged results.†
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References
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J. Lee, K.T. Crampton, N. Tallarida, and V.A. Apkarian, "Visualizing vibrational normal modes of a single molecule with atomically confined light", Nature, vol. 568, pp. 78-82, 2019. http://dx.doi.org/10.1038/s41586-019-1059-9
Tags:019-1059-9, 10.1038, Biomolecules, Chelating agents, chemical bonding, Chemical compounds, Chemistry, Coordination chemistry, Coordination complex, Copper, copper metal surface, Cu–CO, E-type, energy, free energy, higher energy, impossible free energy, Inorganic chemistry, Jahn–Teller effect, lowest energy electronic state, Metabolism, metal, metal surface, modest planarisation energy, Molecule, Natural sciences, Physical sciences, planarisation, Porphyrin, reasonable energy, Resonance, Solid-state chemistry, sufficient energy, Teller, Tetraphenylporphyrin
Posted in Interesting chemistry | 1 Comment »
Thursday, April 18th, 2019
The topic of this post originates from a recent article which is attracting much attention.[1] The technique uses confined light to both increase the spatial resolution by around three orders of magnitude and also to amplify the signal from individual molecules to the point it can be recorded. To me, Figure 3 in this article summarises it nicely (caption: visualization of vibrational normal modes). Here I intend to show selected modes as animated and rotatable 3D models with the help of their calculation using density functional theory (a mode of presentation that the confinement of Figure 3 to the pages of a conventional journal article does not enable).
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References
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J. Lee, K.T. Crampton, N. Tallarida, and V.A. Apkarian, "Visualizing vibrational normal modes of a single molecule with atomically confined light", Nature, vol. 568, pp. 78-82, 2019. http://dx.doi.org/10.1038/s41586-019-1059-9
Tags:anionic metal surface, Cambridge, chemical bonding, Chemistry, dihedral, energy, flat metal surface, metal, Natural sciences, Neutral Quartet, Physical sciences, Raman scattering, Raman spectroscopy, Resonance, spectroscopy, steric repulsion energy
Posted in Interesting chemistry | No Comments »
Thursday, April 4th, 2019
Previously, I explored the Graham reaction to form a diazirine. The second phase of the reaction involved an Sn2′ displacement of N-Cl forming C-Cl. Here I ask how facile the simpler displacement of C-Cl by another chlorine might be and whether the mechanism is Sn2 or the alternative Sn1. The reason for posing this question is that as an Sn1 reaction, simply ionizing off the chlorine to form a diazacyclopropenium cation might be a very easy process. Why? Because the resulting cation is analogous to the cyclopropenium cation, famously proposed by Breslow as the first example of a 4n+2 aromatic ring for which the value of n is zero and not 1 as for benzene.[1] Another example of a famous “Sn1” reaction is the solvolysis of t-butyl chloride to form the very stable tertiary carbocation and chloride anion (except in fact that it is not an Sn1 reaction but an Sn2 one!)
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References
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R. Breslow, "SYNTHESIS OF THE s-TRIPHENYLCYCLOPROPENYL CATION", Journal of the American Chemical Society, vol. 79, pp. 5318-5318, 1957. http://dx.doi.org/10.1021/ja01576a067
Tags:animation, Carbenium ion, Cations, Chemical elements, chemical reaction, Chemistry, Chlorine, computational chemistry, Cyclopropenium ion, Diazirine, energy, energy profile, free energy, Halogens, Natural sciences, Nucleophilic aromatic substitution, Oxidizing agents, Physical sciences, potential energy surface, SN1 reaction, Substitution reactions
Posted in reaction mechanism | No Comments »
Monday, April 1st, 2019
Members of the chemical FAIR data community have just met in Orlando (with help from the NSF, the American National Science Foundation) to discuss how such data is progressing in chemistry. There are a lot of themes converging at the moment. Thus this article[1] extolls the virtues of having raw NMR data available in natural product research, to which we added that such raw data should also be made FAIR (Findable, Accessible, Interoperable and Reusable) by virtue of adding rich metadata and then properly registering it so that it can be searched. These themes are combined in another article which made a recent appearance.[2]
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References
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J.B. McAlpine, S. Chen, A. Kutateladze, J.B. MacMillan, G. Appendino, A. Barison, M.A. Beniddir, M.W. Biavatti, S. Bluml, A. Boufridi, M.S. Butler, R.J. Capon, Y.H. Choi, D. Coppage, P. Crews, M.T. Crimmins, M. Csete, P. Dewapriya, J.M. Egan, M.J. Garson, G. Genta-Jouve, W.H. Gerwick, H. Gross, M.K. Harper, P. Hermanto, J.M. Hook, L. Hunter, D. Jeannerat, N. Ji, T.A. Johnson, D.G.I. Kingston, H. Koshino, H. Lee, G. Lewin, J. Li, R.G. Linington, M. Liu, K.L. McPhail, T.F. Molinski, B.S. Moore, J. Nam, R.P. Neupane, M. Niemitz, J. Nuzillard, N.H. Oberlies, F.M.M. Ocampos, G. Pan, R.J. Quinn, D.S. Reddy, J. Renault, J. Rivera-Chávez, W. Robien, C.M. Saunders, T.J. Schmidt, C. Seger, B. Shen, C. Steinbeck, H. Stuppner, S. Sturm, O. Taglialatela-Scafati, D.J. Tantillo, R. Verpoorte, B. Wang, C.M. Williams, P.G. Williams, J. Wist, J. Yue, C. Zhang, Z. Xu, C. Simmler, D.C. Lankin, J. Bisson, and G.F. Pauli, "The value of universally available raw NMR data for transparency, reproducibility, and integrity in natural product research", Natural Product Reports, vol. 36, pp. 35-107, 2019. http://dx.doi.org/10.1039/c7np00064b
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A. Barba, S. Dominguez, C. Cobas, D.P. Martinsen, C. Romain, H.S. Rzepa, and F. Seoane, "Workflows Allowing Creation of Journal Article Supporting Information and Findable, Accessible, Interoperable, and Reusable (FAIR)-Enabled Publication of Spectroscopic Data", ACS Omega, vol. 4, pp. 3280-3286, 2019. http://dx.doi.org/10.1021/acsomega.8b03005
Tags:American National Science Foundation, Bond length, ChemDraw, chemical, Chemistry, City: Orlando, Company: NSF, Force field, Intermolecular forces, Molecular geometry, National Science Foundation, natural product, Natural sciences, Orlando, Physical organic chemistry, Physical sciences, Quantum chemistry, Science and technology in the United States, Stereochemistry, steric energy, steric energy test, Strain, suitable free tool, unstable natural product, X-ray
Posted in Chemical IT | No Comments »
Sunday, March 24th, 2019
There is a predilection amongst chemists for collecting records; one common theme is the length of particular bonds, either the shortest or the longest. A particularly baffling type of bond is that between the very electronegative F atom and an acid hydrogen atom such as that in OH. Thus short C-N…HO hydrogen bonds are extremely common, as are C-O…HO.‡ But F atoms in C-F bonds are largely thought to be inert to hydrogen bonding, as indicated by the use of fluorine in many pharmaceuticals as inert isosteres.[1] Here I do an up-to-date search of the CSD crystal structure database, which is now on the verge of accumulating 1 million entries, to see if any strong C-F…HO hydrogen bonding may have been recently discovered.
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References
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S. Purser, P.R. Moore, S. Swallow, and V. Gouverneur, "Fluorine in medicinal chemistry", Chem. Soc. Rev., vol. 37, pp. 320-330, 2008. http://dx.doi.org/10.1039/B610213C
Tags:Chemical bond, chemical bonding, Chemical elements, Chemistry, Fluorine, Hydrogen, Hydrogen bond, Intermolecular forces, Natural sciences, perturbation energy, pharmaceuticals, Physical sciences, Refrigerants, search parameters, search query, Supramolecular chemistry
Posted in crystal_structure_mining | No Comments »
Monday, February 18th, 2019
Students learning organic chemistry are often asked in examinations and tutorials to devise the mechanisms (as represented by curly arrows) for the core corpus of important reactions, with the purpose of learning skills that allow them to go on to improvise mechanisms for new reactions. A common question asked by students is how should such mechanisms be presented in an exam in order to gain full credit? Alternatively, is there a single correct mechanism for any given reaction? To which the lecturer or tutor will often respond that any reasonable mechanism will receive such credit. The implication is that a mechanism is “reasonable” if it “follows the rules”. The rules are rarely declared fully, but seem to be part of the absorbed but often mysterious skill acquired in learning the subject. These rules also include those governing how the curly arrows should be drawn.† Here I explore this topic using the Graham reaction.[1]‡
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References
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W.H. Graham, "The Halogenation of Amidines. I. Synthesis of 3-Halo- and Other Negatively Substituted Diazirines1", Journal of the American Chemical Society, vol. 87, pp. 4396-4397, 1965. http://dx.doi.org/10.1021/ja00947a040
Tags:/RT, activation energy, activation free energy, animation, arrow pushing, arrow-head, cellular telephone, Chemical kinetics, chemical reaction, Chemistry, computed energy, Ed Smith, energy, energy maximum, energy minima, energy plot, energy profile, energy surface, free energy, lecturer, mechanism, Natural sciences, Organic chemistry, overall reaction energy, Physical sciences, Reaction rate constant, Resonance, Transition state, Transition state theory, tutor, Tutorial
Posted in Curly arrows, Interesting chemistry | No Comments »
Sunday, January 13th, 2019
Linear free energy relationships (LFER) are associated with the dawn of physical organic chemistry in the late 1930s and its objectives in understanding chemical reactivity as measured by reaction rates and equilibria.
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Tags:Benzoic acid, Chemical kinetics, chemical reaction, chemical reactivity, chemist, Chemistry, Electrophilic aromatic substitution, energy point, Equations, Equilibrium chemistry, Equilibrium constant, free energy overall route, Hammett equation, Linear free energy relationships, Natural sciences, Organic chemistry, Physical organic chemistry, Physical sciences, Reactivity
Posted in Chemical IT, Interesting chemistry, reaction mechanism | No Comments »
Friday, December 21st, 2018
Five years back, I speculated about the mechanism of the epoxidation of ethene by a peracid, concluding that kinetic isotope effects provided interesting evidence that this mechanism is highly asynchronous and involves a so-called “hidden intermediate”. Here I revisit this reaction in which a small change is applied to the atoms involved.
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Tags:Chemical kinetics, chemical reaction, Chemistry, Deuterium, Isotope effect, Kinetic isotope effect, Natural sciences, Organic chemistry, overall activation energy, pericyclic reaction, Physical organic chemistry, Physical sciences, potential energy surface, Rearrangement reactions
Posted in Interesting chemistry | 5 Comments »
Thursday, September 20th, 2018
Recently, the 100th anniversary of the birth of the famous chemist Derek Barton was celebrated with a symposium. One of the many wonderful talks presented was by Tobias Ritter and entitled “Late-stage fluorination for PET imaging” and this resonated for me. The challenge is how to produce C-F bonds under mild conditions quickly so that 18F-labelled substrates can be injected for the PET imaging. Ritter has several recent articles on this theme which you should read.[1],[2].
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References
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P. Tang, W. Wang, and T. Ritter, "Deoxyfluorination of Phenols", Journal of the American Chemical Society, vol. 133, pp. 11482-11484, 2011. http://dx.doi.org/10.1021/ja2048072
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C.N. Neumann, and T. Ritter, "Facile C–F Bond Formation through a Concerted Nucleophilic Aromatic Substitution Mediated by the PhenoFluor Reagent", Accounts of Chemical Research, vol. 50, pp. 2822-2833, 2017. http://dx.doi.org/10.1021/acs.accounts.7b00413
Tags:Antimatter, Barton, Chemistry, Derek Barton, Fluorine, Medical physics, Medicinal radiochemistry, Natural sciences, Neuroimaging, Physical sciences, Positron emission tomography, Radiation therapy, Ritter, Tobias Ritter
Posted in Interesting chemistry | 9 Comments »