Posts Tagged ‘Chemical bond’
Saturday, December 31st, 2016
My holiday reading has been Derek Lowe’s excellent Chemistry Book setting out 250 milestones in chemistry, organised by year. An entry for 1920 entitled hydrogen bonding seemed worth exploring in more detail here.
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Tags:10.1021, aqueous solution, Chemical bond, chemical bonding, Chemistry, Derek Lowe, Hydrogen, Hydrogen bond, Intermolecular forces, Lowe's, Nature, Supramolecular chemistry
Posted in Historical | 2 Comments »
Thursday, December 1st, 2016
Following on from a search for long C-C bonds, here is the same repeated for C=C double bonds.
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Tags:Chemical bond, chemical bonding, Chemical nomenclature, Chemistry, Conjugated system, double bond, energy, Nature, Nonmetal, Organic chemistry, Physical organic chemistry, search query, Substituent
Posted in crystal_structure_mining, Interesting chemistry | 2 Comments »
Wednesday, November 30th, 2016
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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Tags:Aviation, Bond order, Carbon–carbon bond, Chemical bond, chemical bonding, naive search, search query, single bond
Posted in crystal_structure_mining, Interesting chemistry | No Comments »
Monday, August 8th, 2016
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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Tags:Anomer, Anomeric effect, Atomic orbital, Carbohydrate chemistry, Carbohydrates, Chemical bond, chemical bonding, Chemistry, Hydrogen bond, interaction energy, Lone pair, Physical organic chemistry, Quantum chemistry
Posted in Interesting chemistry | No Comments »
Saturday, August 6th, 2016
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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Tags:Acetals, Alkane stereochemistry, Anomer, Anomeric effect, Atomic orbital, Carbohydrate chemistry, Carbohydrates, Chemical bond, Chemistry, interaction energy, Lone pair, Physical organic chemistry, Stereochemistry
Posted in crystal_structure_mining, Interesting chemistry | No Comments »
Monday, June 13th, 2016
Previously, I looked at the historic origins of the so-called π-complex theory of metal-alkene complexes. Here I follow this up with some data mining of the crystal structure database for such structures.
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Tags:alkene, alkene-metal complex, alkyne, Bond length, Carbon–carbon bond, Chemical bond, chemical bonding, Cluster chemistry, Conquest structure editor, Coordination complex, data mining, double bond, editor, filled metal orbital, metal, metal-alkene complexes, metal-alkyne complexes, metal-carbon bonds, Pi backbonding, search query, Structural formula, Transition metal alkyne complex
Posted in crystal_structure_mining | No Comments »
Sunday, January 31st, 2016
Six years ago, I posted on the nature of a then recently reported[cite]10.1002/anie.200803859[/cite] Cr-Cr quintuple bond. The topic resurfaced as part of the discussion on a more recent post on NSF3, and a sub-topic on the nature of the higher order bonding in C2. The comment made a connection between that discussion and the Cr-Cr bond alluded to above. I responded briefly to that comment, but because I want to include 3D rotatable surfaces, I expand the discussion here and not in the comment.‡
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Tags:Chemical bond, chemical bonding, Electron, Electron configuration, energy, Molecular orbital, Multi-configurational self-consistent field, Quantum chemistry, quintuple bond, search term, Transition metal, Valence bond theory
Posted in General, Interesting chemistry | 6 Comments »
Saturday, January 16th, 2016
The post on applying VSEPR ("valence shell electron pair repulsion") theory to the geometry of ClF3 has proved perennially popular. So here is a follow-up on another little molecue, F3SN. As the name implies, it is often represented with an S≡N bond. Here I take a look at the conventional analysis.
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Tags:Chemical bond, chemical bonding, Electron, Lone pair, Molecular geometry, Octet rule, Quantum chemistry, Stereochemistry, Tetrahedral molecular geometry, Theoretical chemistry, Valence, VSEPR theory
Posted in Hypervalency | 110 Comments »
Saturday, November 28th, 2015
In 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.
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Tags:animation, Chemical bond, condensation, Demjanov rearrangement, energy, Rearrangement reactions, Tiffeneau–Demjanov rearrangement
Posted in Interesting chemistry | No Comments »
Thursday, August 27th, 2015
The anomeric effect is best known in sugars, occuring in sub-structures such as RO-C-OR. Its origins relate to how the lone pairs on each oxygen atom align with the adjacent C-O bonds. When the alignment is 180°, one oxygen lone pair can donate into the C-O σ* empty orbital and a stabilisation occurs. Here I explore whether crystal structures reflect this effect.
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Tags:Alkane stereochemistry, Anomeric effect, Carbohydrate chemistry, Carbohydrates, Carbon–oxygen bond, Chemical bond, Ether, Lone pair, Physical organic chemistry, Quantum chemistry, Stereochemistry, Technology/Internet
Posted in Chemical IT, crystal_structure_mining | No Comments »