Predicting pK[sub.a] Values of Para-Substituted Aniline Radical Cations vs. Stable Anilinium Ions in Aqueous Media

The focus of pK [sub.a] calculations has primarily been on stable molecules, with limited studies comparing radical cations and stable cations. In this study, we comprehensively investigate models with implicit solvent and explicit water molecules, direct and indirect calculation approaches, as well...

Full description

Saved in:
Bibliographic Details
Published in:Molecules (Basel, Switzerland) Switzerland), 2024-10, Vol.29 (19)
Main Authors: Wang, Jingxin, Fang, Hansun, Zhong, Zixi, Huang, Huajun, Liang, Ximei, Yuan, Yufan, Zhou, Wenwen, Vione, Davide
Format: Article
Language:English
Subjects:
Analysis
Aniline
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The focus of pK [sub.a] calculations has primarily been on stable molecules, with limited studies comparing radical cations and stable cations. In this study, we comprehensively investigate models with implicit solvent and explicit water molecules, direct and indirect calculation approaches, as well as methods for calculating free energy, solvation energy, and quasi-harmonic oscillator approximation for para-substituted aniline radical cations (R-PhNH[sub.2] [sup.•+]) and anilinium cations (R-PhNH[sub.3] [sup.+]) in the aqueous phase. Properly including and positioning explicit H[sub.2]O molecules in the models is important for reliable pK [sub.a] predictions. For R-PhNH[sub.2] [sup.•+], precise pK [sub.a] values were obtained using models with one or two explicit H[sub.2]O molecules, resulting in a root mean square error (RMSE) of 0.563 and 0.384, respectively, for both the CBS-QB3 and M062X(D3)/ma-def2QZVP methods. Further improvement was achieved by adding H[sub.2]O near oxygen-containing substituents, leading to the lowest RMSE of 0.310. Predicting pK [sub.a] values for R-PhNH[sub.3] [sup.+] was more challenging. CBS-QB3 provided an RMSE of 0.349 and the M062X(D3)/ma-def2QZVP method failed to calculate pK [sub.a] accurately (RMSE > 1). However, by adopting the double-hybrid functional method and adding H[sub.2]O near the R substituent group, the calculations were significantly improved with an average absolute difference (ΔpK [sub.a]) of 0.357 between the calculated and experimental pK [sub.a] values. Our study offers efficient and reliable methods for pK [sub.a] calculations of R-PhNH[sub.2] [sup.•+] (especially) and R-PhNH[sub.3] [sup.+] based on currently mature quantum chemistry software.
ISSN:1420-3049
1420-3049
DOI:10.3390/molecules29194522