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Results and Discussion

The formation of 2-trimethylsilyethylsulfonylchloride and the synthesis of its sulfonamide Chelsea Gibbs Department of Chemistry, University of New Hampshire, Durham, NH December 5, 2013 . Results and Discussion. Introduction.

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Results and Discussion

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  1. The formation of 2-trimethylsilyethylsulfonylchloride and the synthesis of its sulfonamide Chelsea Gibbs Department of Chemistry, University of New Hampshire, Durham, NH December 5, 2013 Results and Discussion Introduction The first reaction (A)to yield 2 proceeded via a radical mechanism with commercially available vinyltrimethylsilane, 1. After careful workup and purification, the product was determined via 1H NMR analysis to be the desired compound with a yield of 83% in the salt form. The Zinc Carbenoid-Mediated Chain Extension reaction was first reported in 1997 by Brogan and Zercher.1 This mild and efficient synthesis converts β-keto esters to their γ-keto homologues. The reformatsky type intermediate 5 generated during zinc mediated chain extension can be trapped with various electrophiles like imines, aldehydes, ketones, halogens etc. to yield the corresponding tandem chain extended product.1,2 As mentioned above imines were used as electrophiles in tandem chain extension reactions. In an attempt to increase electrophility and the overall reaction rate/efficiency, a sulfonyl group was reacted to form its imine derivative via addition of ammonia. The SES protecting group was implemented due to its easy removal with reagents such as HF.2 Compound 2via reaction B was converted to the sulfonyl chloride, 3.3The reaction implemented a Vilsmeier reagent to give the chloride source.4The reagents thionylchloride and DMF (N,N-dimethylformamide) created the Vilsmeier reagent that proceeded to chlorinate the sodium sulfonate 2 to produce 3 as a light brown-yellow oil.5The crude oil was purified then concentrated to yield 0.0942g. Figure 1 below shows theformation of the Vilsmeier reagent. 1H NMR analysis determined this tonot be the desired compound. Spectra was inconclusive and showed characteristics of either the sulfonic acid or the sulfonic anhydride. To avoid this in the future, salt 2 should be dried with a drying pistol before reacting and the DMF should be added more slowly while temperature is monitored. Scheme 1: Sodium β-trimethylsilylethanesulfonate,2, is formed in A then reacted to yield 2-Trimethylsilylethanesulfonyl Chloride, 3 in B. Finally in C via addition of aqueous Ammonia, the synthesis of 2-trimethylsilylethanesulfonamide, 4, is attempted. The compound 2-trimethylsilylethanesulfonamide(4) is reacted with boron triflouride diethyl etherate and benzaldehyde to form the imine starting material in a future tandem chain extension mannich reaction.2 Scheme 2 below represents the reaction with the synthesized imine. Future Work Due to the unsuccessful sulfonyl chloride synthesis, the SES substituted sulfonamide was never prepared in reaction C. Aqueous ammonia would be added to a solution of 3 and diethyl ether and stirred for 2 hours.5The crude would be purified then evaluated via 1H NMR to determine composition 4. Figure 2 to the right shows the mechanism of this future reaction. Once the sulfonamide 4 is synthesized to the Imine, the tandem-chain extension reaction can be started. This activated imine is added to the reaction after 1:1 addition of diethylzinc and diiodomethane have been reacted to form the chain extended material.6 The imine, containing the trimethylsilane group, is predicted to be more electrophilic due to the protection of the imine group than other substituted imines.1,2Leading it to react with diethyl zinc and the given substrate to form the chain extended product faster and more efficiently than other imine derivatives.1Scheme 2 represents this process. Figure 1: Formation of Vilsmeier reagent Scheme 2: Outcome of future Tandem Chain Extension Mannich Reaction Acknowledgements: Thanks to Professor Zercher and Group, especially DeepthiBhogadhi, for support, assistance and knowledge throughout this research. References: 1Jacobine, Alexander M., UNH Dissertation for Doctor of Philosophy. 2010.; 2Drew, Kimberly L., UNH Thesis for Bachelor of Arts in Chemistry, 2012. 3Nahit Gençer, DuduDemir, FatihSonmez, Mustafa Kucukislamoglu. Bioorganic & Medicinal Chemistry, Vol. 20, Issue 9, 1 May 2012. 4Weinreb, S.M,; Chase,C.E.; ,Wipf,P.; Venkatraman, S. Organic Syntheses, Coll. Vol. 10, p.707 (2004); Vol. 75, p.161 (1998). 5Sacher, J.R.; Weinreb, S.M. 2-Trimethylsilylethanesulfonyl Chloride (SES-Cl)Org. Synth.1998, 75, 161. 6Bosshard, H. H; Mory, R.; Schmid, M.; Zollinger, H. Helv. Chim. Acta1959, 42, 1653-1658. Figure 2: Mechanism of sulfonamide derivative formation via ammonia

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