Determining the Ionization Constants of Organic Acids Using Fluorine Gauche Effects
Using NMR spectroscopy, the conformational studies of two fluoroethylsulfonamides (N-(2-fluoroethyl)-p-tolylsulfonamide (1) and N-(2-fluoroethyl)trifluoromethanesulfonamide (2)) revealed that fluorine gauche effects are a function of ionization. While acids 1 and 2 exhibited gauche effects (with ga...
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| Veröffentlicht in: | Journal of organic chemistry 2020-04, Vol.85 (7), p.4896-4900 |
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| creator | Emenike, Bright U Dhami, Simran S |
| description | Using NMR spectroscopy, the conformational studies of two fluoroethylsulfonamides (N-(2-fluoroethyl)-p-tolylsulfonamide (1) and N-(2-fluoroethyl)trifluoromethanesulfonamide (2)) revealed that fluorine gauche effects are a function of ionization. While acids 1 and 2 exhibited gauche effects (with gauche populations of 87% and 92% in DMSO-d 6, respectively), their anions, on the other hand, preferred the anti conformer (with gauche populations of 35% and 55%, respectively). The ability of these compounds to undergo conformational changes as a function of ionization enabled their application as molecular probes (standards) for determining the acidity (pK a) of organic compounds in DMSO, which was achieved with the aid of the equation K rel = [(3 J AH – 3 J obs)/(3 J obs – 3 J A)]2, where K rel is the ratio of ionization constants of two acids (standard and test acids), 3 J AH and 3 J A are the proton–fluorine vicinal coupling constants of the standard acid and its anion, respectively, and 3 J obs represents the proton–fluorine vicinal coupling constant observed at the midpoint of an acid–base equilibrium. As a means of demonstrating its utility, this equation accurately calculated the ionization constants (K a) of several organic compounds in DMSO. Taking advantage of fluorine’s unique gauche effect as a strategy for molecular design has the potential to open a new frontier in structural chemistry. |
| doi_str_mv | 10.1021/acs.joc.0c00062 |
| format | Article |
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While acids 1 and 2 exhibited gauche effects (with gauche populations of 87% and 92% in DMSO-d 6, respectively), their anions, on the other hand, preferred the anti conformer (with gauche populations of 35% and 55%, respectively). The ability of these compounds to undergo conformational changes as a function of ionization enabled their application as molecular probes (standards) for determining the acidity (pK a) of organic compounds in DMSO, which was achieved with the aid of the equation K rel = [(3 J AH – 3 J obs)/(3 J obs – 3 J A)]2, where K rel is the ratio of ionization constants of two acids (standard and test acids), 3 J AH and 3 J A are the proton–fluorine vicinal coupling constants of the standard acid and its anion, respectively, and 3 J obs represents the proton–fluorine vicinal coupling constant observed at the midpoint of an acid–base equilibrium. As a means of demonstrating its utility, this equation accurately calculated the ionization constants (K a) of several organic compounds in DMSO. 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The ability of these compounds to undergo conformational changes as a function of ionization enabled their application as molecular probes (standards) for determining the acidity (pK a) of organic compounds in DMSO, which was achieved with the aid of the equation K rel = [(3 J AH – 3 J obs)/(3 J obs – 3 J A)]2, where K rel is the ratio of ionization constants of two acids (standard and test acids), 3 J AH and 3 J A are the proton–fluorine vicinal coupling constants of the standard acid and its anion, respectively, and 3 J obs represents the proton–fluorine vicinal coupling constant observed at the midpoint of an acid–base equilibrium. As a means of demonstrating its utility, this equation accurately calculated the ionization constants (K a) of several organic compounds in DMSO. 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Org. Chem</addtitle><date>2020-04-03</date><risdate>2020</risdate><volume>85</volume><issue>7</issue><spage>4896</spage><epage>4900</epage><pages>4896-4900</pages><issn>0022-3263</issn><eissn>1520-6904</eissn><abstract>Using NMR spectroscopy, the conformational studies of two fluoroethylsulfonamides (N-(2-fluoroethyl)-p-tolylsulfonamide (1) and N-(2-fluoroethyl)trifluoromethanesulfonamide (2)) revealed that fluorine gauche effects are a function of ionization. While acids 1 and 2 exhibited gauche effects (with gauche populations of 87% and 92% in DMSO-d 6, respectively), their anions, on the other hand, preferred the anti conformer (with gauche populations of 35% and 55%, respectively). The ability of these compounds to undergo conformational changes as a function of ionization enabled their application as molecular probes (standards) for determining the acidity (pK a) of organic compounds in DMSO, which was achieved with the aid of the equation K rel = [(3 J AH – 3 J obs)/(3 J obs – 3 J A)]2, where K rel is the ratio of ionization constants of two acids (standard and test acids), 3 J AH and 3 J A are the proton–fluorine vicinal coupling constants of the standard acid and its anion, respectively, and 3 J obs represents the proton–fluorine vicinal coupling constant observed at the midpoint of an acid–base equilibrium. As a means of demonstrating its utility, this equation accurately calculated the ionization constants (K a) of several organic compounds in DMSO. 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| title | Determining the Ionization Constants of Organic Acids Using Fluorine Gauche Effects |
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