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controlled hydrosilylations of carbonyl compounds and computational investigations of a hydride PDF

102 Pages·2015·4.31 MB·English
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Preview controlled hydrosilylations of carbonyl compounds and computational investigations of a hydride

CONTROLLED HYDROSILYLATIONS OF CARBONYL COMPOUNDS AND COMPUTATIONAL INVESTIGATIONS OF A HYDRIDE SHUTTLE MECHANISM FOR ALKENE HYDROSILYLATION by GABRIELA TROG Presented to the Faculty of the Graduate School of The University of Texas at Arlington in Partial Fulfillment of the Requirements for the Degree of MASTER OF SCIENCE IN CHEMISTRY THE UNIVERSITY OF TEXAS AT ARLINGTON December 2015 Copyright © by Gabriela Trog 2015 All Rights Reserved ii Acknowledgements First, I would like to thank Dr. Junha Jeon for being a supportive and excellent mentor. I greatly appreciate the knowledge I have gained under his tutelage. I’d also like to extend heartfelt thanks to my committee members, Drs. Lovely, Foss, and Dias, for assisting me with my proposal draft and presentation skills. Their insight and advice have been extremely helpful and valued during my tenure at UTA. My fellow group members and organic graduate students have been a great source of support and advice, both in and out of the chemical sphere. Thank you all for your assistance and companionship. Finally, I thank my wonderful husband and son. You two mean the world to me. November 9, 2015 iii Abstract CONTROLLED HYDROSILYLATIONS OF CARBONYL COMPOUNDS AND COMPUTATIONAL INVESTIGATIONS OF A HYDRIDE SHUTTLE MECHANISM FOR ALKENE HYDROSILYLATION Gabriela Trog, MS The University of Texas at Arlington, 2015 Supervising Professor: Junha Jeon Chapter 1 describes tandem dual hydrosilylations of α,β-unsaturated enals. Hydrosilylations of both carbonyl compounds and alkenes have been utilized to create chiral alcohols. Tandem dual hydrosilylations (TDH) of α,β-unsaturated carbonyl compounds create five-membered oxasilacycles that can be further converted to 1,3- diols, which are a common structural motif in the polyketide natural product family. We present preliminary data and a substrate scope for the formation of these oxasilacycles en route to the 1,3-diol compounds. Chapter 2 describes hydrosilylations of esters that result in silyl acetals. The silyl acetals are chemical synthons of the corresponding aldehyde. This reaction can be coupled with a Horner-Wadsworth-Emmons reaction to create α,β-unsaturated esters in good yields. Herein we present results for a limited substrate scope of the reductive Horner-Wadsworth-Emmons reaction developed in our group. Chapter 3 describes computational support for a proposed hydride shuttle mechanism. The Jeon group recently disclosed a hydride shuttle mechanism for the regio- and diastereoselective hydrosilylation of homoallylic silyl ethers when using 3- iv bromocyclohexene as a coordinating ligand with a rhodium-based catalyst. Here we present a partial data set supporting the hydride shuttle mechanism over direct bond formation. v Table of Contents Acknowledgements ........................................................................................................... iii Abstract ............................................................................................................................. iv List of Illustrations ............................................................................................................. viii List of Tables ...................................................................................................................... x List of Abbreviations .......................................................................................................... xi Chapter 1 Tandem Dual Hydrosilylations of α,β-Unsaturated Carbonyl Compounds ........................................................................................................................ 1 Introduction .................................................................................................................... 1 Preliminary Data ............................................................................................................ 5 Reaction Optimization .................................................................................................. 10 Substrate Scope .......................................................................................................... 12 Conclusion ................................................................................................................... 17 Chapter 2 Silyl Acetal Usage in a Reductive Horner-Wadsworth-Emmons Olefination ........................................................................................................................ 18 Introduction .................................................................................................................. 18 Preliminary Data .......................................................................................................... 20 Silaphile Optimization .............................................................................................. 21 Minimization of Side Reactions ................................................................................ 22 Substrate Scope Investigations ................................................................................... 23 Conclusion ................................................................................................................... 24 Chapter 3 Experimental and Computational Investigation of a Rhodium- Catalyzed Alkene Hydrosilylation Via a Hydride Shuttle Process .................................... 26 Introduction .................................................................................................................. 26 Computational Work – Methods ................................................................................... 29 vi Results and Discussion ................................................................................................ 30 Conclusion ................................................................................................................... 35 Appendix A Experimental Section .................................................................................... 37 Appendix B Computational Information ............................................................................ 51 References ....................................................................................................................... 88 Biographical Information ................................................................................................... 90 vii List of Illustrations Figure 1-1 Oxopolyene macrolides .................................................................................... 1 Figure 1-2: 1,2- vs 1,4-addition of the organosilane ........................................................... 2 Figure 1-3: Ojima mechanism ............................................................................................ 3 Figure 1-4: Zheng-Chan Mechanism .................................................................................. 4 Figure 1-5: Gade silylene mechanism ................................................................................ 4 Figure 1-6: Tandem Dual Hydrosilylation ........................................................................... 5 Figure 1-6: Formation of an oxasilacycle containing chiral silane .................................... 12 Figure 1-7: TDH and ring-opening of 4-fluorocinnamaldehyde ........................................ 14 Figure 1-8: Proposed transition state for TDH of I-4F ...................................................... 15 Figure 1-9: TDH pro-substrates synthesized by the Bugarin group ................................. 15 Figure 1-10: Aliphatic substrates ...................................................................................... 16 Figure 1-11: TDH of benzylideneacetone ......................................................................... 16 Figure 2-1: Horner-Wadsworth-Emmons reaction ............................................................ 18 Figure 2-2: Comparison of metal acetal and silyl acetal ................................................... 20 Figure 2-3: One-pot formation of α-β-unsaturated esters ................................................. 20 Figure 2-4: Outline for Reductive HWE Olefination .......................................................... 21 Figure 2-5: Undesired formation of II-13b and II-13c ....................................................... 23 Figure 3-1: Chalk-Harrod and Modified Chalk-Harrod mechanisms ................................ 27 Figure 3-2: Formation of five- and six-membered oxasilacycles ...................................... 27 Figure 3-3: Trans-oxasilacycle formation using diene ligands ......................................... 28 Figure 3-4: Proposed mechanism .................................................................................... 29 Figure 3-5: Pictoral Representation of Relative Energies (kcal/mol) in Hydride Shuttle Process ............................................................................................................................ 30 Figure 3-6: Non-hydride shuttle process in kcal/mol ........................................................ 31 viii Figure 3-7: Calculated structure of transition state 5-8 .................................................... 32 Figure 3-8: “Ligand juggling” view of 5-8 .......................................................................... 33 Figure 3-9: Apparent H-sharing in 5-8 .............................................................................. 33 Figure 3-10: THF-solvated results for III-5 – III-6 ............................................................. 34 Figure 3-11: Incomplete diagram of THF-solvated hydride shuttle mechanism ............... 35 ix List of Tables Table 1-1: Catalyst Screening ............................................................................................ 6 Table 1-2: Ligand Screening .............................................................................................. 7 Table 1-3: Hydrogen acceptor studies ............................................................................... 9 Table 1-4: Norbornene as a hydrogen acceptor ................................................................. 9 Table 1-5: Norbornene study at 60 °C .............................................................................. 11 Table 1-6: Silane study ..................................................................................................... 11 Table 1-7: Initial reinvestigations of cinnamaldehydes ..................................................... 13 Table 2-1: Silaphile Optimization ...................................................................................... 22 Table 2-2: Substrate Scope Results ................................................................................. 24 x

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Hydrosilylations of both carbonyl compounds and alkenes have been The Jeon group recently disclosed a hydride shuttle mechanism for the.
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