二取代甲烷以及被吸电子基团取代的羧酰胺烯醇的气相酸度。

Mishima Masaaki, Matsuoka Mio, Lei Yi Xiong, Rappoport Zvi

Institute for Material Chemistry and Engineering, Kyushu University, 6-10-1 Hakozaki, Higashi-ku, Fukuoka 812-8581, Japan.

J Org Chem. 2004 Sep 3;69(18):5947-65. doi: 10.1021/jo040196b.

The gas-phase acidities DeltaG degrees (acid) of some 20 amides/enols of amides RNHCOCHYY'/RNHC(OH)=CYY' [R = Ph, i-Pr; Y, Y' = CO(2)R', CO(2)R' ', or CN, CO(2)R', R', R' ' = Me, CH(2)CF(3), CH(CF(3))(2)], the N-Ph and N-Pr-i amides of Meldrum's acid, 1,3-cyclopentanedione, dimedone, and 1,3-indanedione, and some N-p-BrC(6)H(4) derivatives and of nine CH(2)YY' (Y, Y' = CN, CO(2)R', CO(2)R' '), including the cyclic carbon acids listed above, were determined by ICR. The acidities were calculated at the B3LYP/6-31+G//B3LYP/6-31+G level for both the enol and the amide species or for the carbon acid and the enol on the CO in the CH(2)YY' series. For 12 of the compounds, calculations were also conducted with the larger base sets 6-311+G and G-311+G. The DeltaG degrees (acid) values changed from 341.3 kcal/mol for CH(2)(CO(2)Me)(2) to 301.0 kcal/mol for PhNHC(OH)=C(CN)CH(CF(3))(2). The acidities increased for combinations of Y and Y' based on the order CO(2)Me < CO(2)CH(2)CF(3) < CN, CO(2)CH(CF(3))(2) for a single group and reflect the increased electron-withdrawal ability of Y,Y' coupled with the ability to achieve planarity of the crowded anion. The acidities of corresponding YY'-substituted systems follow the order N-Ph enols > N-Pr-i enols >> CH(2)YY'. Better linear relationships between DeltaG degrees (acid) values calculated for the enols and the observed values than those for the values calculated for the amides suggest that the ionization site is the enolic O-H of most of the noncyclic trisubstituted methanes. The experimental DeltaG degrees (acid) value for Meldrum's acid matches the recently reported calculated value. The calculated structures and natural charges of all species are given, and the changes occurring in them on ionization are discussed. Correlations between the DeltaG degrees (acid) values and the pK(enol) values, which are linear for the trisubstituted methanes, excluding YY' = (CN)(2) and nonlinear for the CH(2)YY' systems, are discussed.

通过离子回旋共振（ICR）测定了约20种酰胺/酰胺烯醇RNHCOCHYY'/RNHC(OH)=CYY'[R = 苯基、异丙基；Y、Y' = CO₂R'、CO₂R'' 或 CN、CO₂R'，R'、R'' = 甲基、CH₂CF₃、CH(CF₃)₂]、米氏酸的N-苯基和N-异丙基酰胺、1,3 - 环戊二酮、二甲基环己二酮和1,3 - 茚满二酮、一些对溴苯基衍生物以及9种CH₂YY'（Y、Y' = CN、CO₂R'、CO₂R''）（包括上述环状碳酸）的气相酸度ΔG°(酸)。对于烯醇和酰胺物种或者对于CH₂YY'系列中CO上的碳酸和烯醇，在B3LYP/6 - 31 + G//B3LYP/6 - 31 + G水平计算酸度。对于其中12种化合物，还用更大的基组6 - 311 + G和G - 311 + G进行了计算。ΔG°(酸)值从CH₂(CO₂Me)₂的341.3千卡/摩尔变化到PhNHC(OH)=C(CN)CH(CF₃)₂的301.0千卡/摩尔。对于单个基团，基于CO₂Me < CO₂CH₂CF₃ < CN、CO₂CH(CF₃)₂的顺序，Y和Y'的组合使酸度增加，这反映了Y,Y'吸电子能力的增强以及拥挤阴离子实现平面性的能力。相应的YY'取代体系的酸度遵循N-苯基烯醇 > N-异丙基烯醇 >> CH₂YY'的顺序。烯醇计算的ΔG°(酸)值与观测值之间的线性关系比酰胺计算值的线性关系更好，这表明对于大多数非环状三取代甲烷，电离位点是烯醇式的O - H。米氏酸的实验ΔG°(酸)值与最近报道的计算值相符。给出了所有物种的计算结构和自然电荷，并讨论了它们在电离时发生的变化。讨论了ΔG°(酸)值与pK(烯醇)值之间的相关性，对于三取代甲烷，除了YY' = (CN)₂外是线性的，而对于CH₂YY'体系是非线性的。