观察内部:利用基于代理的模型分析酮烯醇平衡

IF 1.9 4区 化学 Q2 CHEMISTRY, ORGANIC Journal of Physical Organic Chemistry Pub Date : 2023-12-15 DOI:10.1002/poc.4592
Gregory A. Bowers, Corey A. Baldasare, Paul G. Seybold
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引用次数: 0

摘要

酮烯醇平衡这一课题在物理有机化学领域有着悠久的历史和牢固的地位。然而,在实际应用中,我们仍然会发现许多令人困惑的发现和准确性问题。在本报告中,我们回顾了近期一些明显反常的观察结果,然后利用密度泛函理论计算和基于代理(细胞自动机)的酮-烯-阴离子平衡系统模型对其进行了重新研究。很明显,如果考虑到以下事实,就可以解决许多结果:虽然酮形式通常以压倒性的更高浓度存在,但烯醇仍然可以通过其更大的酸性对阴离子的形成做出重大贡献。因此,在这些情况下,完全归因于酮形式的解离数据实际上应被视为酮形式和(被忽视的)烯醇形式的混合贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Looking inside: Analysis of keto-enol equilibrium using agent-based models

The subject of keto-enol equilibrium has a long history and well-established position within physical organic chemistry. Nonetheless, one still finds numerous reports of confusing findings and questions of accuracy when dealing with its practical application. In this report, some apparently anomalous recent observations are reviewed and then reexamined using density functional theory computations and agent-based (cellular automata) models of the keto-enol-anion equilibrium system. It becomes apparent that a resolution of many of the results can be achieved by taking into account the fact that although the ketone form is often present in overwhelmingly greater concentration, the enol can still contribute significantly to formation of the anion through its much greater acidity. Thus, in these cases, dissociation data assigned solely to the ketone form should in fact be recognized as representing a mixture of contributions from both the keto and the (neglected) enol form.

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来源期刊
CiteScore
3.60
自引率
11.10%
发文量
161
审稿时长
2.3 months
期刊介绍: The Journal of Physical Organic Chemistry is the foremost international journal devoted to the relationship between molecular structure and chemical reactivity in organic systems. It publishes Research Articles, Reviews and Mini Reviews based on research striving to understand the principles governing chemical structures in relation to activity and transformation with physical and mathematical rigor, using results derived from experimental and computational methods. Physical Organic Chemistry is a central and fundamental field with multiple applications in fields such as molecular recognition, supramolecular chemistry, catalysis, photochemistry, biological and material sciences, nanotechnology and surface science.
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