Oxidation kinetics of nickel nanoparticles from chemical reduction method

Chou KS.; Huang KC.

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Oxidation kinetics of nickel nanoparticles from chemical reduction method

机译：化学还原法制备镍纳米粒子的氧化动力学

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The oxidation kinetics of nickel nanoparticles having an approximate mean diameter of 15.5 nm was studied here. Conversion data were derived from both thermogravimetric analysis (TGA) and X-ray diffraction (XRD) analysis in the temperature range of 280 similar to 350degreesC. The results were consistent with each other and found to be modeled well by the equation based on core-shell diffusion controlled kinetics. Oxidation rate constant of nickel nanoparticles were fitted for these temperatures and its activation energy was found to be about 32.4 kcal/mol. The resulting Arrhenius expression of rate constant is k (cm(2)/s) = 9.33 x 10(-5) exp (-32.4 (kcal/mol)/RT). [References: 8]

机译：本文研究了平均直径约为15.5 nm的镍纳米粒子的氧化动力学。转换数据是从280℃（类似于350℃）的温度范围内的热重分析（TGA）和X射线衍射（XRD）分析得出的。结果彼此一致，并且发现基于基于核-壳扩散控制动力学的方程可以很好地建模。在这些温度下拟合了镍纳米粒子的氧化速率常数，发现其活化能约为32.4 kcal / mol。速率常数的最终Arrhenius表达式为k（cm（2）/ s）= 9.33 x 10（-5）exp（-32.4（kcal / mol）/ RT）。 [参考：8]

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《Journal of the Chinese Institute of Chemical Engineers》 |2003年第5期|共4页
作者
Chou KS.; Huang KC.;
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正文语种 eng
中图分类化学工业;
关键词
Oxidation kinetics; Nickel; Nanoparticles; Activation energy; Particles;

机译：氧化动力学镍纳米粒子活化能颗粒;

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1. Oxidation kinetics of nickel nanoparticles from chemical reduction method [J] . Chou KS., Huang KC. Journal of the Chinese Institute of Chemical Engineers . 2003,第5期

机译：化学还原法制备镍纳米粒子的氧化动力学
2. Reduction and oxidation kinetics of nickel-based oxygen-carriers for chemical-looping combustion and chemical-looping reforming [J] . Cristina Dueso, Maria Ortiz, Alberto Abad Chemical engineering journal . 2012,第Null期

机译：用于化学环燃烧和化学环重整的镍基氧载体的还原和氧化动力学
3. Surface structural alteration of multi-walled carbon nanotubes decorated by nickel nanoparticles based on laser ablation/chemical reduction methods to enhance hydrogen storage properties [J] . Mehrabi M., Reyhani A., Parvin P., International journal of hydrogen energy . 2019,第7期

机译：基于激光烧蚀/化学还原方法的镍纳米粒子修饰的多壁碳纳米管的表面结构改变，以提高储氢性能
4. Structural, Thermal and Optical Properties of Nickel Oxide (NiO) Nanoparticles Synthesized by Chemical Precipitation Method [C] . M. P. Deshpande, Kiran N. Patel, Vivek P. Gujarati National Conference on Recent Trends in Science of Materials . 2016

机译：化学沉淀法合成的氧化镍（NIO）纳米颗粒的结构，热和光学性能
5. Synthesis and magnetic properties of cobalt nickel nanoparticles prepared by chemical reduction methods [D] . Patel, Jalpa Dipesh. 2007

机译：化学还原方法制备的钴镍纳米粒子的合成和磁性
6. Ultrasound-Assisted Hydrazine Reduction Method for the Preparation of Nickel Nanoparticles Physicochemical Characterization and Catalytic Application in Suzuki-Miyaura Cross-Coupling Reaction [O] . Adél Anna Ádám, Márton Szabados, Gábor Varga, 2020

机译：超声辅助肼还原法制备镍纳米粒子的理化表征及其在铃木宫浦交叉偶联反应中的催化应用
7. Reduction and oxidation kinetics of nickel-based oxygen-carriers for chemical-looping combustion and chemical-looping reforming [O] . Dueso, Cristina, Ortiz Navarro, María, Abad Secades, Alberto, 2013

机译：用于化学环燃烧和化学环重整的镍基氧载体的还原和氧化动力学
8. High Energy Density Sintered Plate Type Nickel-Cadmium Battery Cells. Part II. Electrochemical Impregnation Methods to Produce Nickel Oxide Electrodes [R] . D. F. Pickett, V. J. Puglisi, h. n. Seiger 1974

机译：高能量密度烧结板型镍镉电池。第二部分。电化学浸渍法制备氧化镍电极

Oxidation kinetics of nickel nanoparticles from chemical reduction method

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