镍铁合金纳米颗粒特性与橙G反应前后

IF 1.8 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY IEEE Open Journal of Nanotechnology Pub Date : 2020-12-02 DOI:10.1109/OJNANO.2020.3042136
Shelby L. Foster;Prashant Acharya;Mojtaba Abolhassani;Skylar Watson;Sheldon Shinn;Lauren F. Greenlee
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引用次数: 2

摘要

合成了由铁和镍组成的双金属纳米颗粒,对其进行了表征和评价,以优化水中偶氮染料去除的理想金属比例。结果表明,改变镍与铁的摩尔比对水中偶氮染料的去除率和整体去除程度有不同的影响。从Ni1Fe10到Ni2.5Fe10的摩尔比较低,去除率为80-99%。从Ni3Fe10到Ni5Fe10,催化剂中Ni的浓度越高,去除率达到70-90%。低摩尔比镍的去除率为0.11 g/L/min,高摩尔比镍的去除率为0.1 ~ 0.05 g/L/min。二级动力学模型适用于所有镍铁化合物反应的前20分钟,反应速率常数随摩尔比的增加而减小。在反应的最后40分钟,偶氮染料的去除符合零级动力学模型。所有合成的纳米颗粒样品都是无序的,因为在XRD光谱中缺乏明显的峰。反应后的样品具有Fe2O3和FeOOH的立方峰。
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Nickel-Iron Alloy Nanoparticle Characteristics Pre- and Post-Reaction With Orange G
Bimetallic nanoparticles comprised of iron and nickel were synthesized, characterized, and evaluated to optimize the ideal metal ratio for azo dye removal from water systems. Results show that changing the molar ratio of nickel to iron caused different removal rates, as well as the extent of overall elimination of azo dye from water. Lower molar ratios, from Ni 1 Fe 10 to Ni 2.5 Fe 10 , exhibited a higher removal efficiency of 80-99%. Higher concentrations of Ni in the catalyst, from Ni 3 Fe 10 to Ni 5 Fe 10 , resulted in 70-90% removal. The lower molar ratios of Ni exhibited a consistent removal rate of 0.11 g/L/min, while the higher molar ratios of Ni displayed varying removal rates of 0.1-0.05 g/L/min. A second order kinetic model was fit to the first twenty minutes of the reaction for all nickel to iron compositions, where there is a decrease in rate constant with an increase in molar ratio. During the last forty minutes of reaction, azo dye removal fit a zero order kinetic model. All as-synthesized nanoparticle samples were found to be structurally disordered based on the lack of distinct peaks in XRD spectra. Post-reaction samples were found to have Fe 2 O 3 and FeOOH cubic peaks.
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来源期刊
CiteScore
3.90
自引率
17.60%
发文量
10
审稿时长
12 weeks
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