Organozinc compound

Organozinc compound
Organozinc chemistry

Organozinc compounds in organic chemistry contain carbon to zinc chemical bonds. Organozinc chemistry is the science of organozinc compounds describing their physical properties, synthesis and reactions.[1][2][3][4]

The first organozinc compound ever prepared, diethylzinc (by Edward Frankland in 1849), was also the first compound discovered with a metal-to-carbon sigma bond. Many organozinc compounds are pyrophoric and therefore difficult to handle. Organozinc compounds in general are sensitive to oxidation, dissolve in a wide variety of solvents where protic solvents cause decomposition. In many reactions they are prepared in situ, not isolated and reacted further. All reactions require a protective gas (nitrogen or argon) blanket.

The most common oxidation state is +2. The three main classes of organozincs are: organozinc halides R-Zn-X with X a halogen atom, diorganozincs R-Zn-R with R an alkyl or aryl group and lithium zincates or magnesium zincates M+R3Zn- with M lithium or magnesium.

The carbon zinc bond is polarized towards carbon due to the differences in electronegativity (carbon:2.55 and zinc: 1.65). Diorganozincs are always monomeric, the organozinc halides form aggregates through halogen bridges very much like Grignard reagents and also like Grignards they display a Schlenk equilibrium.

Contents

Synthesis

Several general methods exist for the generation of organozinc compounds.

  • Oxidative addition. The original diethylzinc synthesis by Frankland was an oxidative addition of iodoethane to zinc metal with hydrogen gas as a "protective" blanket (this reaction is called the Frankland synthesis). The reactivity of zinc metal is increased in so-called Rieke zinc obtained by reduction of zinc chloride by potassium metal.
2RI + 2Zn → ZnR2 + ZnI2
  • Halogen zinc exchange. Two main halogen zinc exchange reactions are iodine zinc exchange and boron zinc exchange. The first step in the second procedure is hydroboration of an alkene:
Halogen zinc exchange
Organozinc Synthesis by Direct Insertion
In this method zinc is activated by the action of 1,2-dibromoethane and trimethylsilyl chloride. A key ingredient is lithium chloride which quickly forms a soluble adduct with the organozinc compound thus removing it from the metal surface.

Reactions

In many of their reactions organozincs appear as intermediates.

  • In the Frankland-Duppa Reaction (1863) an oxalate ester (ROCOCOOR) reacts with an alkyl halide R'X, zinc and hydrochloric acid to the α-hydroxycarboxylic esters RR'COHCOOR[8]
  • The Reformatskii reaction converts α-halo-esters and aldehydes to β-hydroxy-esters also through an intermediate organozinc halide.
  • In the Simmons-Smith reaction the carbenoid (iodomethyl)zinc iodide reacts with alkens to cyclopropanes
  • Reactions of zinc metal acetylides
  • Addition reaction of organozinc compounds to carbonyl compounds. The Barbier reaction (1899) is the zinc equivalent of the magnesium Grignard reaction and actually the older and the more tolerant of the two. In presence of just about any water the formation of the organomagnesium halide will fail whereas the Barbier reaction can even take place in water. On the downside organozincs are much less nucleophilic than Grignards. Among the Group 12 elements zinc is the most reactive. Commercially available diorganozinc compounds are dimethylzinc, diethylzinc and diphenylzinc. These reagents are expensive and difficult to handle. In one study[9][10] the active organozinc compound is obtained from much cheaper organobromine precursors:
Addition of diphenylzinc to an aldehyde
  • The Negishi coupling is an important reaction for the formation of new carbon carbon bonds between unsaturated carbon atoms in alkenes, arenes and alkynes. The catalysts are nickel and palladium. A key step in the catalytic cycle is a transmetalation in which a zinc halide exchanges its organic substituent for another halogen with the palladium (nickel) metal center. The Fukuyama coupling is another coupling reaction but this one with a thioester as reactant forming a ketone.

Organozincates

The first ever organozinc ate complex (organozincate) was discovered in 1858 by James Alfred Wanklyn,[11] an assistant to Frankland and concerned the reaction of elemental sodium with diethylzinc:

2Na + 3 Et2Zn -> 2Et3Zn-Na+ + Zn

In 2007 it was reported that by tweaking the reaction conditions the zincate proceeds to react to sodium hydridoethylzincate(II) (with hydrogen atoms as bridging ligands) as a result of beta-hydride elimination of one of the ethyl groups:[12]

Organozincate reaction Lennartson 2007

Organozinc(I) compounds

Low valent organozinc compounds having a Zn-Zn bond are also known. The first such compound Decamethyldizincocene was reported in 2004 [13]

See also

CH He
CLi CBe CB CC CN CO CF Ne
CNa CMg CAl CSi CP CS CCl CAr
CK CCa CSc CTi CV CCr CMn CFe CCo CNi CCu CZn CGa CGe CAs CSe CBr CKr
CRb CSr CY CZr CNb CMo CTc CRu CRh CPd CAg CCd CIn CSn CSb CTe CI CXe
CCs CBa CHf CTa CW CRe COs CIr CPt CAu CHg CTl CPb CBi CPo CAt Rn
Fr Ra Rf Db Sg Bh Hs Mt Ds Rg Cn Uut Uuq Uup Uuh Uus Uuo
CLa CCe CPr CNd CPm CSm CEu CGd CTb CDy CHo CEr CTm CYb CLu
Ac Th Pa CU Np Pu Am Cm Bk Cf Es Fm Md No Lr
Chemical bonds to carbon
Core organic chemistry Many uses in chemistry
Academic research, but no widespread use Bond unknown / not assessed

References

  1. ^ Knochel, P.; Millot, N.; Rodriguez, A.; Tucker, C. E. Org. React. 2001, 58, 417. (doi: 10.1002/0471264180.or066.01)
  2. ^ The Chemistry of Organozinc Compounds (Patai Series: The Chemistry of Functional Groups), (Eds. Z. Rappoport and I. Marek), John Wiley & Sons: Chichester, UK, 2006, ISBN 0-470-09337-4.
  3. ^ Organozinc reagents - A Practical Approach, (Eds. P. Knochel and P. Jones), Oxford Medical Publications, Oxford, 1999, ISBN 0-19-850121-8.
  4. ^ Synthetic Methods of Organometallic and Inorganic Chemistry Vol 5, Copper, Silver, Gold, Zinc, Cadmium, and Mercury, W.A. Herrmann Ed., ISBN 3-13-103061-5
  5. ^ Markies, P; Schat, Gerrit; Akkerman, Otto S.; Bickelhaupt, F.; Spek, Anthony L. (1992). "Complexation of diphenylzinc with simple ethers. Crystal structures of the complexes Ph2Zn · glyme and Ph2Zn · diglyme". J. Organomet. Chem. 430: 1. doi:10.1016/0022-328X(92)80090-K. 
  6. ^ Efficient Synthesis of Functionalized Organozinc Compounds by the Direct Insertion of Zinc into Organic Iodides and Bromides Arkady Krasovskiy, Vladimir Malakhov, Andrei Gavryushin, Paul Knochel, Angewandte Chemie International Edition, Volume 45, Issue 36 , Pages 6040-6044 2006 doi:10.1002/anie.200601450
  7. ^ In this example the arylzinc iodide continues to react with allyl bromide in a nucleophilic displacement
  8. ^ Frankland-Duppa Reaction
  9. ^ From Aryl Bromides to Enantioenriched Benzylic Alcohols in a Single Flask: Catalytic Asymmetric Arylation of Aldehydes , J.G. Kim and P.J. Walsh, Angewandte Chemie International Edition, Volume 45, Issue 25 , Pages 4175-4178, 2006, doi:10.1002/anie.200600741
  10. ^ In this one-pot reaction bromobenzene is converted to phenyllithium by reaction with 4 equivalents of n-butyllithium, then transmetalation with zinc chloride forms diphenylzinc which continues to react in an asymmetric reaction first with the MIB ligand and then with 2-naphthylaldehyde to the alcohol. In this reaction formation of diphenylzinc is accompanied by that of lithium chloride, which unchecked, catalyses the reaction without MIB involvement to the racemic alcohol. The salt is effectively removed by chelation with tetraethylethylene diamine (TEEDA) resulting in an enantiomeric excess of 92%.
  11. ^ J. A. Wanklyn (1858). "Ueber einige neue Aethylverbindungen, welche Alkalimetalle enthalten". Liebigs Annalen 108 (67): 67–79. doi:10.1002/jlac.18581080116. 
  12. ^ Facile Synthesis of Well-Defined Sodium Hydridoalkylzincates(II) Anders Lennartson, Mikael Hakansson, and Susan Jagner Angew. Chem. Int. Ed. 2007, 46, 6678 –6680 doi:10.1002/anie.200701477
  13. ^ Schulz, Stephan (2010). "Low-Valent Organometallics-Synthesis, Reactivity, and Potential Applications". Chemistry - A European Journal 16 (22): 6416–28. doi:10.1002/chem.201000580. PMID 20486240. 

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