Tert-Butyllithium Explained

tert-Butyllithium is a chemical compound with the formula (CH3)3CLi. As an organolithium compound, it has applications in organic synthesis since it is a strong base, capable of deprotonating many carbon molecules, including benzene. tert-Butyllithium is available commercially as solutions in hydrocarbons (such as pentane); it is not usually prepared in the laboratory.

Preparation

tert-Butyllithium is produced commercially by treating tert-butyl chloride with lithium metal. Its synthesis was first reported by R. B. Woodward in 1941.[1]

Structure and bonding

Like other organolithium compounds, tert-butyllithium is a cluster compound. Whereas n-butyllithium exists both as a hexamer and a tetramer, tert-butyllithium exists exclusively as a tetramer with a cubane structure. Bonding in organolithium clusters involves sigma delocalization and significant Li−Li bonding.[2] Despite its complicated structure, tert-butyllithium is usually depicted in equations as a monomer.

The lithium–carbon bond in tert-butyllithium is highly polarized, having about 40 percent ionic character. The molecule reacts like a carbanion, as is represented by these two resonance structures:[3]

Reactions

tert-Butyllithium is renowned for deprotonation of carbon acids (C-H bonds). One example is the double deprotonation of allyl alcohol.[4] Other examples are the deprotonation of vinyl ethers.[5] [6] [7]

In combination with n-butyllithiium, tert-butylllithium monolithiates ferrocene.[8] tert-Butyllithium deprotonates dichloromethane:[9]

Similar to n-butyllithium, tert-butyllithium can be used for lithium–halogen exchange reactions.[10] [11]

Solvent compatibility

To minimize degradation by solvents, reactions involving tert-butyllithium are often conducted at very low temperatures in special solvents, such as the Trapp solvent mixture.

More so than other alkyllithium compounds, tert-butyllithium reacts with ethers.[2] In diethyl ether, the half-life of tert-butyllithium is about 60 minutes at 0 °C. It is even more reactive toward tetrahydrofuran (THF); the half-life in THF solutions is about 40 minutes at −20 °C.[12] In dimethoxyethane, the half-life is about 11 minutes at −70 °C[13]

In this example, the reaction of tert-butyllithium with (THF) is shown:

Safety

tert-butyllithium is a pyrophoric substance, meaning that it spontaneously ignites on exposure to air. Air-free techniques are important so as to prevent this compound from reacting violently with oxygen and moisture:

t-BuLi + O2t-BuOOLi

t-BuLi + H2O → t-BuH + LiOH

The solvents used in common commercial preparations are themselves flammable. While it is possible to work with this compound using cannula transfer, traces of tert-butyllithium at the tip of the needle or cannula may ignite and clog the cannula with lithium salts. While some researchers take this "pilot light" effect as a sign that the product is "fresh" and has not degraded due to time or improper storage/handling, others prefer to enclose the needle tip or cannula in a short glass tube, which is flushed with an inert gas and sealed at each end with septa.[14] Serious laboratory accidents involving tert-butyllithium have occurred. For example, in 2008 a staff research assistant, Sheharbano Sangji, in the lab of Patrick Harran[15] at the University of California, Los Angeles, died after being severely burned by a fire ignited by tert-butyllithium.[16] [17] [18]

Large-scale reactions may lead to runaway reactions, fires, and explosions when tert-butyllithium is mixed with ethers such as diethyl ether, and tetrahydrofuran. The use of hydrocarbon solvents may be preferred.

See also

Notes and References

  1. Bartlett . Paul D. . C. Gardner Swain . Robert B. Woodward . J. Am. Chem. Soc. . t-Butyllithium . 1941 . 63 . 11 . 3229–3230 . 10.1021/ja01856a501.
  2. Book: Elschenbroich, C. . Organometallics . 2006 . Wiley-VCH . Weinheim . 978-3-527-29390-2.
  3. Book: Organometallic reagents: sources of nucleophilic carbon for alcohol synthesis . K. P. C. Vollhardt, N. E. Schore . Organic Chemistry : Structure And Function, 3rd edition . 1999.
  4. 10.15227/orgsyn.066.0014 . (1-Oxo-2-Propenyl)Trimethylsilane . Organic Syntheses . 1988 . 66 . 14 . Rick L. Danheiser, David M. Fink, Kazuo Okano, Yeun-Min Tsai, Steven W. Szczepanski.
  5. John A. Soderquist . 10.15227/orgsyn.068.0025 . Acetyltrimethylsilane . Organic Syntheses . 1990 . 68 . 25.
  6. 10.15227/orgsyn.073.0215 . 4-Ketoundecanoic Acid . Organic Syntheses . 1996 . 73 . 215 . M. A. Tschantz, L. E. Burgess, A. I. Meyers.
  7. 10.15227/orgsyn.079.0011 . 1,2-Metallate Rearrangement: (Z)-4-(2-Propenyl)-3-Octen-1-Ol . Organic Syntheses . 2002 . 79 . 11 . Krzysztof Jarowicki, Philip J. Kocienski, Liu Qun.
  8. 10.15227/orgsyn.090.0316 . Practical Synthesis of Di-tert-Butylphosphinoferrocene . Organic Syntheses . 2013 . 90 . 316 . Carl A. Busacca, Magnus C. Eriksson, Nizar Haddad, Z. Steve Han, Jon C. Lorenz, Bo Qu, Xingzhong Zeng, Chris H. Senanayake . free.
  9. 10.1021/om50005a008 . Homologation of Boronic Esters to α-Chloro Boronic Esters . 1983 . Matteson . Donald S. . Majumdar . Debesh . Organometallics . 2 . 11 . 1529–1535.
  10. 10.15227/orgsyn.078.0051 . Synthesis of 4-, 5-, and 6-Methyl-2,2'-bipyridine by a Negishi Cross-Coupling Strategy: 5-Methyl-2,2'-bipyridine . Organic Syntheses . 2002 . 78 . 51 . Adam P. Smith, Scott A. Savage, J. Christopher Love, Cassandra L. Fraser.
  11. 10.15227/orgsyn.074.0248 . Regioselective Synthesis of 3-Substituted Indoles: 3-Ethylindole . Organic Syntheses . 1997 . 74 . 248 . Mercedes Amat, Sabine Hadida, Swargam Sathyanarayana, Joan Bosch.
  12. Stanetty, P . Koller, H. . Mihovilovic, M. . Directed ortho Lithiation of Phenylcarbamic acid 1,1-Dimethylethyl Ester (N-BOC-aniline). Revision and Improvements . Journal of Organic Chemistry . 1992 . 57 . 6833–6837 . 10.1021/jo00051a030 . 25.
  13. Fitt, J. J. . Gschwend, H. E. . Reaction of n-, sec-, and tert-butyllithium with dimethoxyethane (DME): a correction . . 1984 . 49 . 209–210 . 10.1021/jo00175a056.
  14. Book: Errington, R. M. . Advanced practical inorganic and metalorganic chemistry . Blackie Academic & Professional . London . 1997 . 47–48 . 978-0-7514-0225-4 . Google Books excerpt.
  15. Web site: Harran Lab: UCLA . 2011-09-21 . 2012-10-13 . https://web.archive.org/web/20121013013907/http://faculty.chemistry.ucla.edu/institution/personnel?personnel%5Fid=552980 . dead.
  16. News: . Jyllian Kemsley . Researcher Dies After Lab Fire . 2009-01-22 .
  17. News: . Jyllian Kemsley . Learning From UCLA: Details of the experiment that led to a researcher's death prompt evaluations of academic safety practices . 2009-04-03 .
  18. http://www.latimes.com/news/local/traffic/la-me-uclaburn1-2009mar01,0,5638579.story Los Angeles Times, 2009-03-01

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