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• W3204385238 abstract "It is generally acknowledged that polyfluoroarenes are important fluorinated structural units for various organic molecules, such as pharmaceuticals, agrochemicals, and organic materials. Polyfluorinated aryl alkynes and alcohols are also powerful building blocks in chemical synthesis because of their versatility to be transformed into various useful molecules and also their ubiquity in natural product synthesis. Efficient methods for the synthesis of polyfluorinated aryl alkynes and alcohols are presented in Chapter 2 and Chapter 3. In addition, 3-amino-indoles have found a broad applications in medicinal chemistry as effective anticancer agents, compounds with analgesic properties and can function as potent inhibitors of tubulin polymerization, and agents for the prevention of type II diabetes. A simple method for the synthesis of 3-amino-indoles via the annulation reaction of polyfluorophenylboronates with DMF is reported in Chapter 4.Chapter 2In Chapter 2, a mild process for the copper-catalyzed oxidative cross-coupling of electron-deficient polyfluorophenylboronate esters with terminal alkynes (Scheme S-1) is reported. This method displays good functional group tolerance and broad substrate scope, generating cross-coupled alkynyl(fluoro)arene products in moderate to excellent yields. This copper-catalyzed reaction was conducted on a gram scale to generate the corresponding product in good yield (72%). Scheme S-1. Copper-catalyzed oxidative cross-coupling of terminal alkynes with polyfluorophenylboronate esters. Based on previous reports and the aforementioned observations, a plausible catalytic cycle for this oxidative cross-coupling reaction is shown in Scheme S-2. The first step involves the addition of an alkynyl anion to Cu leading to the formation of alkynylcopper(II) species B. Subsequent transmetalation between ArFBpin and intermediate B occurs to form intermediate C. The desired product 3a is generated by eductive elimination. Finally, the oxidation of Cu(0) to Cu(II) with DDQ and Ag2O regenerates A to complete the catalytic cycle. Scheme S-2. Proposed mechanism of copper(II)-catalyzed oxidative cross-coupling between terminal alkynes and polyfluorophenylboronate esters.Chapter 3In Chapter 3, A convenient and efficient protocol for the transition metal-free 1,2-addition of polyfluoroaryl boronate esters to aldehydes and ketones is reported, which provides secondary alcohols, tertiary alcohols, and ketones (Scheme S-3). The distinguishing features of this procedure include the employment of commercially available starting materials and the broad scope of the reaction with a wide variety of carbonyl compounds giving moderate to excellent yields. Scheme S-3. Base-promoted 1,2-addition of polyfluorophenylboronates to aldehydes and ketones.Control experiments were carried out to gain insight into the reaction mechanism. The reaction of 2a with pentafluorobenzene 5 under standard conditions was examined, yet 3a was not formed in any detectable amounts (Scheme S-4a), indicating that the C-Bpin moiety is essential and deprotonation of the fluoroarene or nucleophilic attack at the fluoroarene by the base is not a plausible pathway. Interestingly, for the standard reaction between 1a and 2a, the yield dropped dramatically if 18-crown-6 ether and K2CO3 were added (Scheme S-4b). This experimental result indicates that the presence of the potassium ion plays a crucial role for the outcome of the reaction. Furthermore, if the reaction of 1a and 2a was performed in the presence of only a catalytic amount of K2CO3 (20 mol%) (Scheme S-4c), reaction rates were reduced, and a week was required to produce 3a in good yield. This finding again indicates that the potassium ion (or the base) plays an important role in the reaction. Substituting ortho-fluorines by ortho-chlorines, using either C6Cl5Bpin 2,6-dichlorophenyl-1-Bpin as substrates, did not yield any product as shown by in situ GCMS studies. Scheme S-4. Control experiments.Based on DFT calculations, a mechanism for the 1,2-addition of polyfluorophenylboronates to aryl aldehydes in the presence of K2CO3 as base is proposed, as shown in Scheme S-5. K2CO3 interacts with the Lewis-acidic Bpin moiety of substrate 1 to generate base adduct A, which weakens the carbon-boron bond and ultimately cleaves the BC bond along with attachment of a potassium cation to the aryl group. The resulting ArF- anion adduct B undergoes nucleophilic attack at the aldehyde carbon atom of substrate 2 to generate methanolate C. The methanolate oxygen atom then attacks the electrophilic Bpin group to obtain compound D. Transfer of K2CO3 from intermediate D to the boron atom of the more Lewis-acidic polyfluorophenyl-Bpin 1 finally closes the cycle and regenerates complex A. Thus, the primary reaction product is the O-borylated addition product E, which was detected by HRMS and NMR spectroscopy for the perfluorinated derivative. Scheme S-5. Proposed mechanism of the 1,2-addition of polyfluorophenylboronates to aldehydes and ketones.Chapter 4Chapter 4 presents a novel protocol for the transition metal-free addition and annulation of polyfluoroarylboronate esters to DMF, which provides 3-aminoindoles and tertiary amines in moderate to excellent yields (Scheme S-6). Scheme S-6. Annulation and addition reactions of polyfluorophenylboronates with DMF.While exploring the application of this strategy in synthesis, perfluorophenylBpin reacted smoothly with ethynylarenes and DMF to afford propargylamines with moderate to excellent yields (Scheme S-7). Scheme S-7. Three-component cross-coupling reaction for the synthesis of propargylamines." @default.
• W3204385238 created "2021-10-11" @default.
• W3204385238 creator A5060341807 @default.
• W3204385238 date "2021-01-01" @default.
• W3204385238 modified "2023-09-23" @default.
• W3204385238 title "Fluorinated Aryl Boronates as Units in Organic Synthesis" @default.
• W3204385238 doi "https://doi.org/10.25972/opus-24576" @default.
• W3204385238 hasPublicationYear "2021" @default.
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