苯甲酰胺和乙酰胺与4-取代苯酚氢键配合物的介电弛豫X波段微波研究

Q4 Environmental Science

Asean Journal on Science and Technology for Development Pub Date : 2021-12-24 DOI:10.29037/ajstd.711

A. Basha, F. Khan

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引用次数: 4

摘要

在308 K下，使用9.37 GHz的介电弛豫装置，对苯中苯酰胺和乙酰胺与4-氟苯酚、4-溴苯酚、4-氯苯酚和4-碘苯酚的氢键配合物进行了介电研究。各种介电参数(如??, ? ?， ?0和??)进行了测试。质子供体的空间相互作用决定了基团旋转弛豫时间t(2)，而Higasi单频方法对多重弛豫时间t(1)的意义是由酚氢的氢键能力决定的。1:1摩尔比的弛豫时间和摩尔自由能活化度均大于其他较高摩尔比(即3:1、2:1、1:2、1:3)，证实了所制备样品之间存在1:1配合体系，酚类的游离羟基和酰胺类的羰基之间存在电荷转移。

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Dielectric Relaxation Studies of Hydrogen Bonded Complexes of Benzamide and Acetamide with 4-substituted Phenols Using X-band Microwave Frequency

At 308 K, using a 9.37 GHz dielectric relaxation setup, dielectric studies of hydrogen bonded complexes of benzamide and acetamide with 4-fluorophenol, 4-bromophenol, 4-chlorophenol, and 4-iodophenol in benzene were performed. Various dielectric parameters (such as ??, ??, ?0, and ??) were tested. The steric interactions of the proton donor determined the group rotation relaxation time t(2), whereas the significance of Higasi’s single frequency method for multiple relaxation time t(1) was determined by the hydrogen bonding power of the phenolic hydrogen. The presence of a 1:1 complex system between the prepared samples, as well as a charge transfer between the free hydroxyl group of phenols and the carbonyl group of amides was confirmed by the fact that the relaxation time and molar free energy activation of the 1:1 molar ratio were greater than some other higher molar ratios (i.e. 3:1, 2:1, 1:2, 1:3).

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来源期刊

Asean Journal on Science and Technology for Development Environmental Science-Waste Management and Disposal

CiteScore

1.50

自引率

0.00%

发文量

审稿时长

14 weeks