Tetraphenylcyclopentadienone

Tetraphenylcyclopentadienone
Skeletal formula

Perspective view, showing the canted phenyl rings[1]
Names
IUPAC name
2,3,4,5-Tetraphenyl-2,4- cyclopentadien-1-one
Other names
Tetracyclone, TPCPD
Identifiers
479-33-4 YesY
3D model (Jmol) Interactive image
ChemSpider 61382 YesY
ECHA InfoCard 100.006.847
PubChem 68068
Properties
C29H20O
Molar mass 384.48 g·mol−1
Melting point 219 to 220 °C (426 to 428 °F; 492 to 493 K)[2]
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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Infobox references

Tetraphenylcyclopentadienone is an organic compound with the formula (C6H5)4C4CO. It is a dark purple to black crystalline solid that is soluble in organic solvents. It is an easily made building block for many organic and organometallic compounds.

Structure

The C5O core of the molecule is planar and conjugated. The C2-C3 and C4-C5 distances are 1.35 Å, while the C1-C2, C3-C4, C5-C1 are closer to single bonds with distances near 1.5 Å.[1] The phenyl groups of tetraphenylcyclopentadienone adopt a "propeller" shape in its 3D conformation. The four phenyl rings are rotated out of the plane of the central ring because of steric repulsion with each other.[3]

Synthesis

Tetraphenylcyclopentadienone can be synthesized by a double aldol condensation involving benzil and dibenzyl ketone in the presence of a basic catalyst.[2][4]

Reactions

The central ring can act as a diene in Diels–Alder reactions with various dienophiles. For example, reaction with benzyne leads to 1,2,3,4-tetraphenylnaphthalene and reaction with diphenylacetylene leads to hexaphenylbenzene.[4] In this way, it is a precursor to graphene-like molecules,[5] such as coronene.

Similarly, pentaphenylpyridine derivatives may be prepared via a Diels–Alder reaction between tetraphenylcyclopentadienone and benzonitrile.

Tetraphenylcyclopentadienone can provide an effective alternative to DDQ in aromatization of parts of porphyrin structures:[6]

Ligand in organometallic chemistry

Tetraarylcyclopentadienones are a well studied class of ligands in organometallic chemistry. The Shvo catalyst, useful for certain hydrogenations, is derived from tetraphenylcyclopentadienone.[7]

The Shvo catalyst is a ruthenium complex of tetraphenylcyclopentadienone.

See also

References

  1. 1 2 J. C. Barnes; W. M. Horspool; F. I. Mackie (1991). "2,3,4,5-Tetraphenylcyclopenta-2,4-dien-1-one and 5,6,7,8-tetrachloro-3a,9a-dihydro-2,3,3a,9a-tetraphenylcyclopenta[2,3-b][1,4]benzodioxin-1-one–toluene (2/1): Compounds of photochemical interest". Acta Crystallogr. C. 47: 164–168. doi:10.1107/S0108270190005145.
  2. 1 2 John R. Johnson, J. R.; Grummitt, O. (1943). "Tetraphenylcyclopentadienone". Org. Synth. 23: 92.; Coll. Vol., 3, p. 805
  3. Sheley, C. F.; Shechter, H. (1970). "Cyclopentadienones from 1,2,4-cyclopentanetriones, 2-cyclopentene-1,4-diones, and 3-cyclopentene-1,2-diones". The Journal of Organic Chemistry. 35 (7): 2367–2374. doi:10.1021/jo00832a058.
  4. 1 2 Fieser, L. F. (1966). "Hexaphenylbenzene". Org. Synth. 46: 44.; Coll. Vol., 5, p. 604
  5. Feng, Xinliang; Pisula, Wojciech; Müllen, Klaus (31 January 2009). "Large polycyclic aromatic hydrocarbons: Synthesis and discotic organization". Pure and Applied Chemistry. 81 (12). doi:10.1351/PAC-CON-09-07-07.
  6. M.A. Filatov; A.Y. Lebedev; S.A. Vinogradov; A.V. Cheprakov (2008). "Synthesis of 5,15-Diaryltetrabenzoporphyrins". J. Org. Chem. 73 (11): 4175–4185. doi:10.1021/jo800509k.
  7. Quintard, Adrien; Rodriguez, Jean (14 April 2014). "Iron Cyclopentadienone Complexes: Discovery, Properties, and Catalytic Reactivity". Angewandte Chemie International Edition. 53 (16): 4044–4055. doi:10.1002/anie.201310788.
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