Kinetics of direct and water-mediated tautomerization reactions of four-membered cyclic lactims to amides or lactams

IF 1.5 4区化学 Q4 CHEMISTRY, PHYSICAL

International Journal of Chemical Kinetics Pub Date : 2024-06-25 DOI:10.1002/kin.21749

Judith Würmel, John M. Simmie

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Abstract

As part of a series of studies of hydrogen-atom transfer or tautomerization reactions of imidic acid-amide species, $H$ ─ $O$ ─ $C$ ═ $N$ ─ $⇌ O$ ═ $C$ ─ $NH$ ─, we report the rate constants for a set of 16 four-membered cyclic compounds at low, 50–300 K, and high, 500–1500 K, temperatures. The compounds are labeled according to the two ring groups X and Y, which can be ${CH}_{2}$ , NH, CH, N, O, or C(O) and which are at some remove from the reactive site. These rate constants are for both the direct reaction and for that mediated by an additional water molecule, which facilitates the hydrogen transfer reaction. In the latter case, we show that the rate of reaction from a pre-reaction complex is rapid at temperatures down to 50 K and dominated by quantum mechanical effects as evaluated by small-curvature and quantized-reaction-states tunneling. In addition, we present thermochemical data such as enthalpies of formation, entropies, isobaric heat capacities, and enthalpy functions for these largely unknown species, which span a range of compounds from $β$ -propiolactone to 1,3-diazetidine-2,4-dione.

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四元环内酰亚胺与酰胺或内酰胺的直接和水介导的同分异构反应动力学

作为亚胺酸-酰胺（═─═─）氢原子转移或同构化反应系列研究的一部分，我们报告了一组 16 个四元环状化合物在低温（50-300 K）和高温（500-1500 K）下的速率常数。这些化合物是根据两个环基 X 和 Y 标记的，这两个环基可以是 NH、CH、N、O 或 C(O)，并且与反应位点有一定的距离。这些速率常数既适用于直接反应，也适用于由额外水分子介导的反应，后者促进了氢转移反应。在后一种情况下，我们表明，来自反应前复合物的反应速率在低至 50 K 的温度下是快速的，并受量子力学效应的支配，这是由小曲率和量子化反应态隧道效应评估得出的。此外，我们还展示了这些基本未知物种的热化学数据，如形成焓、熵、等压热容和焓函数，这些物种涵盖了从丙内酯到 1,3-二氮杂环丁烷-2,4-二酮的一系列化合物。

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来源期刊

International Journal of Chemical Kinetics 化学-物理化学

CiteScore

3.30

自引率

6.70%

发文量

审稿时长

3 months

期刊介绍： As the leading archival journal devoted exclusively to chemical kinetics, the International Journal of Chemical Kinetics publishes original research in gas phase, condensed phase, and polymer reaction kinetics, as well as biochemical and surface kinetics. The Journal seeks to be the primary archive for careful experimental measurements of reaction kinetics, in both simple and complex systems. The Journal also presents new developments in applied theoretical kinetics and publishes large kinetic models, and the algorithms and estimates used in these models. These include methods for handling the large reaction networks important in biochemistry, catalysis, and free radical chemistry. In addition, the Journal explores such topics as the quantitative relationships between molecular structure and chemical reactivity, organic/inorganic chemistry and reaction mechanisms, and the reactive chemistry at interfaces.