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邻苯二酚-Fe2O3和邻苯二酚-CuO体系中持久性自由基的形成机制及特征 被引量:8

The formation and characteristics of persistent free radicals in catechol-Fe_2O_3/ silica and catechol-CuO / silica systems
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摘要 以SiO_2为载体模拟固体土壤环境,研究了邻苯二酚(CT)-Fe_2O_3/SiO_2和CT-CuO/SiO_2体系中持久性自由基(PFRs)的形成机制、特征及其对邻苯二酚降解的影响.实验发现,相对于CT-SiO_2体系,CT-Fe_2O_3/SiO_2和CT-Cu O/SiO_2体系中邻苯二酚和过渡金属相互作用,还原后的过渡金属与自由基结合形成了以半醌自由基为主的更稳定的PFRs,其g值为2.0040—2.0055.在较低浓度时,这种PFRs阻碍了CT的降解,改变了其环境行为,增大了其环境风险. This work studied the formation mechanism and characteristics of PFRs in the system of catechol( CT)-Fe2O3/ SiO2 and CT-CuO / SiO2. Importantly,the impact of PFRs on CT degradation was investigated. Compared to CT-SiO2 particles,more stable PFRs were observed during the interaction between CT and transition metal on the surface of 1% Fe2O3/ SiO2 or 1% Cu O / SiO2 particles. These PFRs are mostly semiquinone free radicals with a g factor of 2.0040—2.0055. The generation of Fe( Ⅱ)-PFRs or Cu( I)-PFRs decreased the degradation of CT in the lower concentration and thus might alter CT environmental behavior and increase its environmental risk.
作者 王婷 李浩 郭惠莹 程正奇 潘波
机构地区 昆明理工大学
出处 《环境化学》 CAS CSCD 北大核心 2016年第3期423-429,共7页 Environmental Chemistry
基金 国家自然科学基金(41222025,41273138)资助~~
关键词 持久性自由基 G因子 邻苯二酚 光降解 persistent free radicals g factor catechol photodegradation
分类号 X131.3 [环境科学与工程—环境科学]
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参考文献26

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环境化学
2016年 第3期

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