Study on the Effect of the Ligand Structure in Palladium Organometallic Catalysts in the Suzuki–Miyaura Cross-Coupling Reaction †
by
, , ,
Paula Munín-Cruz
*
,
Marcos Rúa-Sueiro
,
Juan Manuel Ortigueira
,
María Teresa Pereira
and
José Manuel Vila
Department of Inorganic Chemistry, Faculty of Chemistry, Campus Vida, University of Santiago de Compostela, Avd. das Ciencias s/n, 15782 Santiago de Compostela, Spain
*
Author to whom correspondence should be addressed.
†
Presented at the 25th International Electronic Conference on Synthetic Organic Chemistry, 15–30 November 2021; Available online: https://ecsoc-25.sciforum.net/ .
Chem. Proc. 2022, 8(1), 19; https://doi.org/10.3390/ecsoc-25-11730
Published: 14 November 2021
(This article belongs to the Proceedings of The 25th International Electronic Conference on Synthetic Organic Chemistry)
Abstract
:In this communication, we present the results obtained using a family of cyclometallated palladium compounds as catalysts for the Suzuki–Miyaura cross-coupling reaction between an aryl halide and phenylboronic acid. We have studied the structural factors that enhance the efficiency of the catalyst for this process through the synthesis of a library of analogous compounds containing thiosemicarbazone ligands with substituted rings and ferrocene diphosphine (dppf). We found that the best conversion rates are obtained with ligands bearing methoxy-disubstituted aromatic rings, and that the process performance is improved when R2 is a methyl group bound to the thioamidic nitrogen. These results lay the foundations for the design and development of novel and more efficient palladium catalysts based on thiosemicarbazones.
1. Introduction
Suzuki–Miyaura cross-coupling describes the formation of a carbon–carbon bond between an organoborane and an alkenyl, aryl, or alkyl triflate or halide in the presence of base and a catalyst [1].
In this work, 4-bromoacetophenone and phenylboronic acid were chosen as the starting substrates, in the presence of a base and the appropriate amount of catalyst, using a mixture of THF and water as the solvent. The general catalytic process is shown in Scheme 1.
2. Materials and Methods
A family of cyclometalsated palladium compounds, capable of providing high catalytic activity due to their characteristics, has been synthesized [2,3,4]. Scheme 2 shows the general body that corresponds to the synthesized compounds. All of them have been characterized by 1H and 31P NMR spectroscopic techniques. Since these catalysts bear labile coordination ligands, such as diphosphine 1,1′-bis(diphenylphosphino)ferrocene (dppf), they are easily released and also stable in solution, which allows them to be regenerated.
We have already described the synthesis of these compounds in previous works [5]. In this work, we have evaluated the catalytic capacity of a total of 22 compounds. Table 1 shows the different substituents for each of the compounds.
The conditions used for the evaluation of the catalytic activity of catalysts 1–22 in the Suzuki–Miyaura reaction were the following: In a Radleys carousel tube, 20 mg of 4-bromoacetophenone and 14.7 mg of phenylboronic acid (1.2 eq) were added to a mixture of THF/H2O (2:1). Then, 27.8 mg of potassium carbonate and the appropriate amount of catalyst (4 mol% in Pd) were added to the mixture, which was stirred at 80 °C for 24 h.
After 24 h, 0.1 mL of hydrochloric acid (0.1 M) were added and the mixture was extracted with dichloromethane. The combined organic layers were dried over anhydrous sodium sulfate, filtered, and concentrated under reduced pressure to remove the solvent.
The sample was then dissolved in CDCl3 and analyzed by 1H NMR spectroscopy. The conversion rate is obtained by comparison of the integrals of the signals corresponding to the methyl groups of the reagent and the coupled product. An example is shown in Figure 1.
3. Results
The results obtained for the conversion using the thiosemicarbazone-based catalysts (1–22) are shown in Figure 2. As can be seen, the conversion rates vary according to the substituents R and R′. Five values higher than 60% were obtained, two of which were found to be higher than 80%.
4. Discussion
The results indicate that the best conversion rate is obtained using compound 16 as the catalyst (98%), followed by 12 (83%). Both compounds have in common two aromatic rings substituted by a methoxy group and a methyl group at the thioamidic position.
Author Contributions
Conceptualization, P.M.-C.; methodology, P.M.-C. and M.R.-S.; software, P.M.-C.; validation, P.M.-C. and J.M.V.; formal analysis, P.M.-C. and M.R.-S.; investigation, P.M.-C. and M.R.-S.; resources, M.T.P. and J.M.V.; data curation, P.M.-C.; writing—original draft preparation, P.M.-C.; writing—review and editing, P.M.-C.; visualization, P.M.-C.; supervision, J.M.V.; J.M.O. and M.T.P.; project administration, P.M.-C. and M.R.-S.; funding acquisition, all authors. All authors have read and agreed to the published version of the manuscript.
Funding
The authors are grateful for the funding obtained from the Xunta de Galicia (Galicia, Spain) through the program: Competitive Reference Group GRC2019/14.
Institutional Review Board Statement
Not applicable.
Informed Consent Statement
Not applicable.
Data Availability Statement
Not applicable.
Conflicts of Interest
The authors declare no conflict of interest.
References
- Miyaura, N.; Suzuki, A. Stereoselective synthesis of arylated (E)-alkenes by the reaction of alk-1-enylboranes with aryl halides in the presence of palladium catalyst. J. Chem. Soc. Chem. Commun. 1979, 19, 866–867. [Google Scholar] [CrossRef]
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Scheme 1.
General scheme of the catalytic process.
Scheme 2.
General structure of the catalysts.
Figure 1.
1H NMR spectra in CDCl3 of the results obtained using catalyst 10.
Figure 2.
Summary of the conversion rate obtained with each catalyst.
Table 1.
Summary of the substituents of the catalysts.
| Catalyst Number | Substituent R’ | 1 Substituent R |
|---|---|---|
| 1 | 4-Br | H |
| 2 | 4-Br | Me |
| 3 | 4-Br | Et |
| 4 | 4-OMe | H |
| 5 | 4-OMe | Me |
| 6 | 4-OMe | Et |
| 7 | 3-OMe | H |
| 8 | 3-OMe | Me |
| 9 | 3-OMe | Et |
| 10 | 3-OMe | Ph |
| 11 | 3,4-OMe | H |
| 12 | 3,4-OMe | Me |
| 13 | 3,4-OMe | Et |
| 14 | 3,4-OMe | Ph |
| 15 | 2,4-OMe | H |
| 16 | 2,4-OMe | Me |
| 17 | 2,4-OMe | Et |
| 18 | 2,4-OMe | Ph |
| 19 | 2,3,4-OMe | H |
| 20 | 2,3,4-OMe | Me |
| 21 | 2,3,4-OMe | Et |
| 22 | 2,3,4-OMe | Ph |
1 Compounds in which R′ = 4-Br or 4-OMe and R = Ph could not be synthesized.
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MDPI and ACS Style
Munín-Cruz, P.; Rúa-Sueiro, M.; Ortigueira, J.M.; Pereira, M.T.; Vila, J.M. Study on the Effect of the Ligand Structure in Palladium Organometallic Catalysts in the Suzuki–Miyaura Cross-Coupling Reaction. Chem. Proc. 2022, 8, 19. https://doi.org/10.3390/ecsoc-25-11730
AMA Style
Munín-Cruz P, Rúa-Sueiro M, Ortigueira JM, Pereira MT, Vila JM. Study on the Effect of the Ligand Structure in Palladium Organometallic Catalysts in the Suzuki–Miyaura Cross-Coupling Reaction. Chemistry Proceedings. 2022; 8(1):19. https://doi.org/10.3390/ecsoc-25-11730
Chicago/Turabian StyleMunín-Cruz, Paula, Marcos Rúa-Sueiro, Juan Manuel Ortigueira, María Teresa Pereira, and José Manuel Vila. 2022. "Study on the Effect of the Ligand Structure in Palladium Organometallic Catalysts in the Suzuki–Miyaura Cross-Coupling Reaction" Chemistry Proceedings 8, no. 1: 19. https://doi.org/10.3390/ecsoc-25-11730
