| Studies on the Reaction Mechanism of Br2 + I2 = 2IBr |
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| 引用本文: | ZHAO Hui-Minga YUAN Li-Xiaa YANG Guo-Yinga SUN De-Shengb WANG Zun-Yaoa② CHI Qing-Qinga a.Studies on the Reaction Mechanism of Br2 + I2 = 2IBr[J].结构化学,2006,25(10):1280-1286. |
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| 作者姓名: | ZHAO Hui-Minga YUAN Li-Xiaa YANG Guo-Yinga SUN De-Shengb WANG Zun-Yaoa② CHI Qing-Qinga a |
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| 作者单位: | ZHAO Hui-Minga YUAN Li-Xiaa YANG Guo-Yinga SUN De-Shengb WANG Zun-Yaoa② CHI Qing-Qinga a (School of Biological and Chemical Engineering,Jiaxing University,Jiaxing,Zhejiang 314001,China) b (School of Science,Nanjing University of Technology,Jiangsu 210009,China) |
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| 基金项目: | Project supported by the Chinese Post Doctoral Research Fund (No. 2003033486) |
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| 摘 要: | 1 INTRODUCTION Interhalogen compounds have played an impor- tant role in environment and chemical engineering production. During the course of ozone exhaustion induced by sunlight in polar region, Br2, BrCl and HOBr are all precursors of Br atom1]. Lately, scien- tists have detected that the content of BrCl in polar region sunlight was 35 ppt, larger than that of Br2 (25 ppt). Previous studies suggested that the con- centration of BrCl and O3 exhibits obvious negative correlation: w…
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| 关 键 词: | 溴 碘 溴化碘 过渡态 反应机理 分光光度测定法 |
Studies on the Reaction Mechanism of Br2 + I2 = 2IBr |
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| ZHAO Hui-Ming,YUAN Li-Xia,YANG Guo-Ying,SUN De-Sheng,WANG Zun-Yao,CHI Qing-Qing.Studies on the Reaction Mechanism of Br2 + I2 = 2IBr[J].Chinese Journal of Structural Chemistry,2006,25(10):1280-1286. |
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| Authors: | ZHAO Hui-Ming YUAN Li-Xia YANG Guo-Ying SUN De-Sheng WANG Zun-Yao CHI Qing-Qing |
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| Institution: | 1. School of Biological and Chemical Engineering, Jiaxing University, Jiaxing, Zhejiang 314001, China
2. School of Science, Nanjing University of Technology, Jiangsu 210009, China |
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| Abstract: | The reaction mechanism of Br2 I2 = 2IBr was investigated at the (U)MP2/3-21G* level, and one four-centred transition state as well as two three-atom molecules (IBr2, I2Br) were thus obtained. The same result was achieved by comparing the activation energy of three reaction paths, i.e., the minimum activation energy of the bimolecular elementary reaction Br2 I2 = 2IBr is less than the dissociation energy of Br2 or I2. It is thus theoretically proved that the title reaction occurs more easily in the bimolecular form without light initiation. However, once the reaction system was initiated by light through the reaction path of Br atom reacting with I2 or I atom reacting with Br2, the title reaction was completed quickly, which was verified with absorbance measurement at 516 nm in the present study. |
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| Keywords: | bromine iodine iodine bromide transition state reaction mechanism spectrophotometry |
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