Micro-mesoporous iron oxides with record efficiency for the decomposition of hydrogen peroxide: morphology driven catalysis for the degradation of organic contaminants

Datta K. J.; Gawande M. B.; Datta K. K. R.; Ranc V.; Pechousek J.; Krizek M.; Tucek J.; Kale R.; Pospisil P.; Varma R. S.; Asefa T.; Zoppellaro G.; Zboril R.

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Micro-mesoporous iron oxides with record efficiency for the decomposition of hydrogen peroxide: morphology driven catalysis for the degradation of organic contaminants

机译：具有超高效率的过氧化氢分解的微介孔氧化铁：形态驱动的有机污染物降解催化

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A template-free solid-state synthesis of a morphologically controlled and highly organized iron(III) oxide micro-mesoporous Fenton catalyst has been engineered through a simple two-step synthetic procedure. The 3D nanoassembly of hematite nanoparticles (5-7 nm) organized into a rod/flower-like morphology shows the highest rate constant reported to date for the decomposition of H2O2 (1.43 x 10(-1) min(-1)) with superior efficiency for the degradation of aromatic (phenol, benzene, ethylbenzene) and chlorinated (trichloroethylene) pollutants in contaminated water. The morphological arrangement of nanoparticles is therefore considered one of the key variables that drive catalysis.

机译：通过简单的两步合成程序设计了形态控制和高度组织化的氧化铁（III）微介孔Fenton催化剂的无模板固态合成。组织成棒/花状形态的赤铁矿纳米粒子（5-7 nm）的3D纳米组装显示迄今为止报道的H2O2分解的速率常数最高（1.43 x 10（-1）min（-1））在污水中降解芳族（苯酚，苯，乙苯）和氯化（三氯乙烯）污染物的效率。因此，纳米颗粒的形态排列被认为是驱动催化作用的关键变量之一。

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《Journal of Materials Chemistry, A. Materials for energy and sustainability》 |2016年第2期|共9页
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Datta K. J.; Gawande M. B.; Datta K. K. R.; Ranc V.; Pechousek J.; Krizek M.; Tucek J.; Kale R.; Pospisil P.; Varma R. S.; Asefa T.; Zoppellaro G.; Zboril R.;
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1. Micro-mesoporous iron oxides with record efficiency for the decomposition of hydrogen peroxide: morphology driven catalysis for the degradation of organic contaminants [J] . Datta K. J., Gawande M. B., Datta K. K. R., Journal of Materials Chemistry, A. Materials for energy and sustainability . 2016,第2期

机译：具有超高效率的过氧化氢分解的微介孔氧化铁：形态驱动的有机污染物降解催化
2. Comparison of catalytic decomposition of hydrogen peroxide and catalytic degradation of phenol by immobilized iron oxides [J] . Chun-Ping Huang, Yao-Hui Huang Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications . 2008,第1a2期

机译：固定化氧化铁催化过氧化氢和苯酚催化降解的比较
3. Retraction of 'Catalytic Efficiency of Iron(Ⅲ) Oxides in Decomposition of Hydrogen Peroxide: Competition between the Surface Area and Crystallinity of Nanoparticles" [J] . Martin Hermanek, Radek Zboril, Ivo Medrik, Journal of the American Chemical Society . 2019,第51期

机译：撤回“氧化铁分解中的氧化铁催化效率：纳米颗粒的表面积与结晶度之间的竞争”
4. Electrical activation of hydrogen peroxide for organic contaminant degradation using an improved gas diffusion cathode [C] . LUO Haijian, LI Chaolin, SUN Xue, International Conference on Energy and Environmental Protection . 2017

机译：使用改进的气体扩散阴极进行有机污染物降解过氧化氢的电激活
5. Decomposition of hydrogen peroxide and oxidation of quinoline in the presence of iron oxides. [D] . Wang, Heng-Chuan Ann. 1996

机译：过氧化氢的分解和喹啉在氧化铁存在下的氧化。
6. The design of organic catalysis for epoxidation by hydrogen peroxide [O] . Roger W. Alder, Anthony P. Davis -1

机译：双氧水环氧化有机催化剂的设计
7. Decomposition of hydrogen peroxide and organic compounds in the presence of iron and iron oxides [O] . Kwan Wai P. (Wai Pang) 1974- 2003

机译：在铁和铁氧化物存在下分解过氧化氢和有机化合物

Micro-mesoporous iron oxides with record efficiency for the decomposition of hydrogen peroxide: morphology driven catalysis for the degradation of organic contaminants

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