Modeling of the Chemico-Physical Process of Protonation of Molecules Entailing Some Quantum Chemical Descriptors

J. Quantum Inf. Sci. Pub Date : 2011-09-29 DOI:10.4236/jqis.2011.12012

S. K. Rajak, N. Islam, D. C. Ghosh

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引用次数: 35

Abstract

Relying upon the basic tenets of scientific modeling, an ansatz for the evaluation of proton affinity of mole-cules are evolved in terms of a four component model. The components of the model chosen are global de-scriptors like ionization energies, global softness, electronegativity and electrophilicity index. These akin quantum mechanical descriptors of atoms and molecules are linked with the charge rearrangement and polarization that occur during the physico-chemical process of protonation of molecules. The suggested ansatz is invoked to compute the protonation energy of as many as 43 compounds of diverse physico-chemical nature viz, hydrocarbons, alcohols, carbonyls, carboxylic acids, esters, aliphatic amines and aromatic amines. A detailed comparative study of theoretically evaluated protonation energies of the above mentioned molecules vis-a-vis their corresponding experimental counterparts reveals that there is a close agreement between the theory and experiment. Thus the results strongly suggest that the proposed modeling and the ansatz for computing PA, the proton affinity, of molecules for studying the physico-chemical process of protonation may be valid proposition.

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基于量子化学描述符的分子质子化的化学物理过程建模

根据科学建模的基本原则，提出了一种基于四组分模型的分子质子亲和性评价方法。所选模型的组成部分是全局描述符，如电离能、全局柔软度、电负性和亲电性指数。这些类似于原子和分子的量子力学描述符与分子质子化的物理化学过程中发生的电荷重排和极化有关。建议的ansatz被用来计算多达43种不同物理化学性质的化合物的质子化能，即碳氢化合物、醇类、羰基、羧酸、酯类、脂肪胺和芳香胺。对上述分子的理论计算的质子化能与相应的实验分子的质子化能进行了详细的比较研究，结果表明理论与实验之间存在着密切的一致性。因此，这些结果强烈地表明，为研究质子化的物理化学过程而建立的分子质子亲和关系模型和计算方法可能是一个有效的命题。

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J. Quantum Inf. Sci.

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