Synthesis of Hematite (α-Fe_2O_3) Nanostructures by Thermal Oxidation of Iron Sheet for Cr (VI) Adsorption

机译：通过对Cr（VI）吸附的铁板热氧化来合成赤铁矿（α-Fe_2O_3）纳米结构

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In this study, hematite (α-Fe_2O_3) nanostructures were synthesized via thermal oxidation of Fe sheet in dry air and in water vapor. SEM images show nanoblades and nanowires growing on the surface of the sheet. Samples synthesized in water vapor generally produced larger nanostructures while samples oxidized in higher temperatures formed taller and slender nanostructures. The α-Fe_2O_3 nanostructures were used as adsorbent for Cr (VI) in acidic medium. Chromium removal was highest with the samples synthesized at 650°C in water vapor with 95% efficiency. Kinetic and thermodynamic studies revealed that the adsorption process strongly followed pseudo-second order kinetics model and is endothermic. The process also follows the Langmuir adsorption isotherm model, suggesting that the process is described by homogeneous, monolayer adsorption. Adsorption of Cr (VI) onto hematite may be attributed to the electrostatic reaction between the positively charged hematite adsorbent and negative chromium ion.

机译：在该研究中，通过在干燥空气和水蒸气中通过Fe纸张的热氧化合成赤铁矿（α-Fe_2O_3）纳米结构。 SEM图像显示在片材表面上生长的纳米肿块和纳米线。在水蒸气中合成的样品通常产生较大的纳米结构，而在更高温度下氧化的样品形成更高的纳米结构。 α-Fe_2O_3纳米结构用作酸性介质中的Cr（VI）的吸附剂。在水蒸气中在650℃合成的样品中，在水蒸气中合成的样品最高，铬去除最高，效率为95％。动力学和热力学研究表明，吸附过程强烈遵循伪二次阶动力学模型，是吸热的。该方法还遵循Langmuir吸附等温线模型，表明该方法是通过均匀的单层吸附来描述的。将Cr（vi）吸附到赤铁矿上可归因于带正电荷的赤铁矿吸附剂和负铬离子之间的静电反应。

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《International Conference on Key Engineering Materials》|2018年|xiii646p|共7页
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Christian Laurence E. Aquino; Mikko James C. Bongar; Anfernee B. Silvestre;
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中图分类 TB3-532;
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thermal oxidation; hematite nanostructures; Cr (VI) adsorption;

机译：热氧化;赤铁矿纳米结构;Cr（VI）吸附;

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1. Improved Coercivity of Solvothermally Grown Hematite (α-Fe_2O_3) and Hematite/Graphene Oxide Nanocomposites (α-Fe_2O_3/GO) at Low Temperature [J] . M. Satheesh, Abdul Rasheed Paloly, C. K. Krishna Sagar, Physica status solidi . 2018,第2期

机译：低温溶剂热生长赤铁矿（α-Fe_2O_3）和赤铁矿/氧化石墨烯纳米复合材料（α-Fe_2O_3/ GO）的矫顽力
2. Improved Coercivity of Solvothermally Grown Hematite (α-Fe_2O_3) and Hematite/Graphene Oxide Nanocomposites (α-Fe_2O_3/GO) at Low Temperature [J] . M. Satheesh, Abdul Rasheed Paloly, C. K. Krishna Sagar, Physica status solidi . 2018,第2期

机译：在低温下改善溶剂热量氧化含量（α-Fe_2O_3）和赤铁矿/石墨烯氧化物纳米复合材料（α-FE_2O_3 / GO）的矫顽力
3. Rapid synthesis and optical properties of hematite (α-Fe_2O_3) nanostructures using a simple thermal decomposition method [J] . R. Al-Gaashani, S. Radiman, N. Tabet Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2013,第Null期

机译：使用简单的热分解方法快速合成赤铁矿（α-Fe_2O_3）纳米结构和光学性质
4. Synthesis of Hematite (α-Fe_2O_3) Nanostructures by Thermal Oxidation of Iron Sheet for Cr (VI) Adsorption [C] . Christian Laurence E. Aquino, Mikko James C. Bongar, Anfernee B. Silvestre International Conference on Key Engineering Materials . 2018

机译：通过对Cr（VI）吸附的铁板热氧化来合成赤铁矿（α-Fe_2O_3）纳米结构
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机译：热生长的Zn掺杂赤铁矿（α-Fe2O3）纳米结构，用于有效吸附Cr（vi）和芬芳辅助降解甲基橙

Synthesis of Hematite (α-Fe_2O_3) Nanostructures by Thermal Oxidation of Iron Sheet for Cr (VI) Adsorption

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