Evolving Mineralogy and Reactivity of Hematite-Coated Sands During Reduction of 4-Chloronitrobenzene by Fe(II) in Flow-Through Reactors

IF 5.8 2区 环境科学与生态学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Celina Harris, Adel Soroush, Alanna Hildebrandt, Kamilah Y Amen, Louis Corcoran, Joshua Feinberg, William Arnold, R. Lee Penn
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Abstract

Naturally-occurring iron oxide nanoparticles provide reactive surfaces for the reduction of nitroaromatic compounds, which are common groundwater pollutants, by Fe(II). In many natural aquifer systems, iron oxide minerals continuously react with groundwater pollutants and other chemical species. To closely emulate field conditions, continuous flow columns packed with hematite-coated sands were used to study the reduction of 4-chloronitrobenzene (4-ClNB) by Fe(II) associated with the iron oxide. Columns were packed with sands coated with either a high or low mass loading of hematite nanoparticles (0.19 or 0.43 mg hematite per gram of sand after flushing). Following 36 hours of reaction (200-225 pore volumes), the total mass of iron oxide present in the columns increased, resulting from the concurrent Fe(III) oxidative mineral growth. The greatest increase was observed at the bottom of the column packed with the higher hematite mass loading sand. Acicular particles were observed on the post-reaction materials of both the high and low hematite loading sands. The acicular morphology is characteristic of goethite nanoparticles, and the presence of goethite was detected by low temperature magnetometry. Similar to results obtained under batch reactor conditions, goethite crystals heterogeneously nucleated on hematite as a result of the reductive degradation of 4-ClNB by Fe(II). Results tracking the rates of reductive degradation of the 4-ClNB and evolution of mineralogy demonstrate that reactivity is determined by the accessible reactive surface area, which evolves as goethite is deposited on hematite over time.
铁(II)在流式反应器中还原 4-氯硝基苯过程中赤铁矿包覆砂的矿物学和反应活性的演变
天然存在的纳米氧化铁颗粒为铁(II)还原硝基芳香族化合物提供了反应表面,而硝基芳香族化合物是常见的地下水污染物。在许多天然含水层系统中,氧化铁矿物不断与地下水污染物和其他化学物质发生反应。为了密切模拟现场条件,我们使用了由赤铁矿涂层砂填充的连续流动柱来研究与氧化铁相关的铁(II)对 4-氯硝基苯(4-ClNB)的还原。色谱柱填满了涂有高或低质量赤铁矿纳米颗粒的砂(冲洗后每克砂含 0.19 或 0.43 毫克赤铁矿)。经过 36 小时的反应(200-225 个孔隙),色谱柱中的氧化铁总质量增加,这是由于铁(III)氧化矿物同时生长所致。在装有赤铁矿质量较高的沙子的柱子底部,观察到了最大的增加。在高赤铁矿含量砂和低赤铁矿含量砂的反应后材料上都观察到了针状颗粒。这种针状形态是鹅膏石纳米颗粒的特征,低温磁强计检测到了鹅膏石的存在。与在间歇反应器条件下获得的结果类似,由于铁(II)对 4-ClNB 的还原降解,赤铁矿上异质地形成了鹅耳石晶体。跟踪 4-ClNB 还原降解速率和矿物学演变的结果表明,反应性由可获得的反应表面积决定,而随着时间的推移,赤铁矿上沉积的鹅辉石会不断演变。
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来源期刊
Environmental Science: Nano
Environmental Science: Nano CHEMISTRY, MULTIDISCIPLINARY-ENVIRONMENTAL SCIENCES
CiteScore
12.20
自引率
5.50%
发文量
290
审稿时长
2.1 months
期刊介绍: Environmental Science: Nano serves as a comprehensive and high-impact peer-reviewed source of information on the design and demonstration of engineered nanomaterials for environment-based applications. It also covers the interactions between engineered, natural, and incidental nanomaterials with biological and environmental systems. This scope includes, but is not limited to, the following topic areas: Novel nanomaterial-based applications for water, air, soil, food, and energy sustainability Nanomaterial interactions with biological systems and nanotoxicology Environmental fate, reactivity, and transformations of nanoscale materials Nanoscale processes in the environment Sustainable nanotechnology including rational nanomaterial design, life cycle assessment, risk/benefit analysis
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