New approach for assigning mean oxidation number of carbons to organonitrogen and organosulfur compounds

IF 2.2 Q2 EDUCATION, SCIENTIFIC DISCIPLINES

Chemistry Teacher International : best practices in chemistry education Pub Date : 2021-10-07 DOI:10.1515/cti-2021-0015

Pong Kau Yuen, C. M. Lau

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引用次数: 7

Abstract

Abstract Organonitrogen and organosulfur compounds are abundant in the natural environment. To understand the biological redox pathways properly, it is important for learners to be able to count the oxidation number of organic carbons. However, the process of counting is not always easy. In addition, organonitrogen and organosulfur molecules are seldom studied. To compensate these problems, this paper explores the bond-dividing method, which can effectively determine the mean oxidation number of carbons of organonitrogen and organosulfur molecules. This method uses the cleavage of carbon-sulfur and carbon-nitrogen bonds to obtain the organic and inorganic fragments. The mean oxidation numbers of carbon atoms, nitrogen atoms, and sulfur atoms can be calculated by the molecular formulas of their fragments. Furthermore, when comparing organosulfur or organonitrogen molecules in a redox conversion, the changes of the mean oxidation numbers of carbon atoms, nitrogen atoms, and sulfur atoms can be used as indicators to identify the redox positions and determine the number of transferred electrons.

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计算有机氮和有机硫化合物碳平均氧化数的新方法

有机氮和有机硫化合物在自然环境中含量丰富。为了正确理解生物氧化还原途径，学习者能够计算有机碳的氧化数是很重要的。然而，计数的过程并不总是那么容易。此外，对有机氮和有机硫分子的研究很少。为了弥补这些问题，本文探索了能有效测定有机氮和有机硫分子平均碳氧化数的分键方法。该方法利用碳硫键和碳氮键的裂解得到有机和无机碎片。碳原子、氮原子和硫原子的平均氧化数可由其碎片的分子式计算得到。此外，在比较氧化还原转化过程中的有机硫或有机氮分子时，碳原子、氮原子和硫原子的平均氧化数的变化可以作为识别氧化还原位置和确定转移电子数的指标。

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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来源期刊

Chemistry Teacher International : best practices in chemistry education

CiteScore

3.10

自引率

0.00%

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