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DOI: 10.1055/s-0030-1261166
Highly Selective Catalytic Synthesis of (E,E)-1,4-Diiodobuta-1,3-diene via Atom-Efficient Addition of Acetylene and Iodine: A Versatile (E,E)-1,3-Diene Building Block in Cross-Coupling Reactions
Publication History
Publication Date:
10 August 2011 (online)
Abstract
The first practical procedure is reported for the synthesis of (E,E)-1,4-diiodobuta-1,3-diene from very simple starting materials (acetylene and I2). A pure crystalline product was obtained in a green chemical procedure utilizing the key advantages of highly selective Pt-catalyzed transformation and 100% atom efficiency of the addition reaction. The Pt catalyst was recovered and re-used in the reaction without a noticeable loss of activity.
Key words
cross-coupling - Pt catalyst - green chemistry - natural product synthesis - total synthesis
- Supporting Information for this article is available online:
- Supporting Information
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References and Notes
Activation barriers for both pathways are small in acetone and should be easy to overcome at r.t., thus the reaction is controlled thermodynamically (Scheme [¹] ). Of course, the values of computed energies may be affected by known limitations of accuracy of DFT calculations, however, the relative reactivity should be correctly predicted.
11As a proof of principle, complete E,E-stereoselectivity was observed in polar solvents (H2O and MeOH), while some minor amounts of E,Z-isomer may be detected in acetone. Note, however, that double-bond isomerization was also observed in the synthesized product. In either case this has no influence on the purity of final product obtained after purification step.
12
Synthetic Procedure
for the Preparation of (E,E)-1,4-Diiodobuta-1,3-diene
The
reaction was carried out in 20 mL tube with PTFE-sealed screw cap.
The catalyst precursor PtCl4 (11.8 mg, 3.5˙10-5 mol),
NaI (0.6 g, 4.0˙10-³ mol)
and I2 (1.0 g, 4.0˙10-³ mol)
were placed into the tube. Solution of acetylene in acetone (5 mL)
was added to the tube. The tube was sealed with screw cap, and the
reaction was carried out at r.t. for 20 h under stirring using a
magnetic stirrer.¹³
Detailed description of the synthetic procedure, isolation, and purification of (E,E)-1,4-diiodobuta-1,3-diene, as well as catalyst regeneration and spectral characterization of the E,E-, E,Z-, and Z,Z-isomers are provided in the Supporting Information.
14For detailed description of the X-ray analysis and NMR characterization of intermediate Pt complex see Supporting Information.
15Dissociation of iodide ligands and
formation of acetylene
π-complexes were omitted
for clarity (Scheme
[¹]
).
Note also, that replacement of iodide ligands by solvent molecules
may also take place at various stages of the catalytic cycle.