Theoretical investigation of the stability, reactivity, and the interaction of methyl-substituted peridinium-based ionic liquids

自然键轨道 取代基 密度泛函理论 化学 计算化学 吡啶 氢键 轨道能级差 反应性(心理学) 分子轨道 离子液体 相互作用能 电子密度 电子受体 离子键合 结晶学 立体化学 药物化学 分子 光化学 电子 有机化学 物理 离子 医学 替代医学 病理 量子力学 催化作用
作者
Emmanuel A. Bisong,Hitler Louis,Tomsmith O. Unimuke,Victoria M. Bassey,John A. Agwupuye,Linda I. Peter,Francis O. Ekpen,Aderemi Timothy Adeleye
出处
期刊:Physical sciences reviews [De Gruyter]
卷期号:8 (8): 1165-1179 被引量:10
标识
DOI:10.1515/psr-2020-0137
摘要

Abstract This research work focuses on the reactivity, stability, and electronic interaction of pyridinium hydrogen nitrate (PHN)-based ionic liquids and the influence of methyl substituent on this class of ionic liquids: Ortho - (O-MPHN), meta - (M-MPHN), and para - (P-MPHN) substitution. Natural bond orbital (NBO) calculations were performed at the density functional theory (DFT) with Becke’s Lee Yang and Parr functional (B3LYP) methods and DFT/B3LYP/6-311++G(d,p) as basis set using GAUSSIAN 09W and GAUSSVIEW 6.0 software and the most important interaction between donor (Filled Lewis-type NBO’s) and the acceptor (vacant non-Lewis NBOs) were observed. From our natural bond orbital (NBO) result, it could be deduced that the higher the stabilization energy value, the greater the interaction between the donor and acceptor NBOs. The stability of the studied compounds is said to follow the order from O -MPHN > PHN > P -MPHN > M -MPHN based on the hyperconjugative interaction (stabilization energy) of the most significant interaction. The result of the highest occupied molecular orbital (HOMO), shows that PHN has the highest HOMO while the substituted derivatives have similar HOMO values between −7.70 and −7.98 eV thus PHN complex is the best electron donor while the substituted derivatives act as electron acceptors due to the presence of methyl group substituent which is observed to be electron deficient as a result of its withdrawal effect from the aromatic ring. Furthermore, the electron density, real space functions such as energy density and Laplacian of electron density at bond critical point (BCP) of the hydrogen bond interaction of the studied compounds were analyzed using Multifunctional Wavefunction analyzer software version 3.7 and it was observed that the hydrogen at position 6 and oxygen at position 11 (H6–O11) of M -methyl pyridinium nitrate with bond distance of 4.59 (Å) gave binding energy with the strongest electrostatic interaction between the cation and anion of the compounds under investigation. We also observed from our results that, substitution at the ortho position enhances the stability and strengthen the extent of charge transfer. This therefore implies that substitution at ortho position is more favorable for inter- and intramolecular interactions resulting to stabilization of the studied molecules.
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