Novel Approach for Synthesis of Mesoporous y-ALOOH Powder from Coal-Bearing Kaolinite and its Enhanced Adsorption Performance for Congo Red and Fluoride

机译：含煤高岭石合成介孔γ-ALOOH粉末的新方法及其对刚果红和氟化物的增强吸附性能

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Mesoporous boehmite (γ-AlOOH) was synthesized from naturally occurring coal-bearing kaolinite (CBK) by direct sulfuric acid leaching and hydrothermal method to explore a new possible route to the synthesis of product with high value added using the CBK. The Brunauner-Emmett-Teller (BET) surface area and the average crystallite size of the γ-AlOOH powder could be controlled in the range from 6.3 to 192.5 m~2 g~(-1) and from 5.5 to 14.4 nm, respectively, by varying the reaction temperature and reaction time. Owing to its porous structure and high surface area, the synthesized mesoporous y-AlOOH powder exhibited better adsorption abilities for CR and fluoride in contrast to commercial boehmite, and it only took 20 min to reach removal efficiency of 99.6% for CR and 90.5% for fluoride, when the initial concentration of CR and fluoride was 100 and 10 mg L~(-1), respectively.

机译：天然存在的含煤高岭石（CBK）通过直接硫酸浸提和水热法合成介孔勃姆石（γ-AlOOH），探索了使用CBK合成高附加值产品的新途径。 γ-AlOOH粉末的Brunauner-Emmett-Teller（BET）表面积和平均微晶尺寸可分别控制在6.3至192.5 m〜2 g〜（-1）和5.5至14.4 nm的范围内，通过改变反应温度和反应时间。由于其多孔结构和高表面积，与市售勃姆石相比，合成的介孔y-AlOOH粉末对CR和氟化物具有更好的吸附能力，仅用20分钟即可达到99.6％的CR和90.5％的CR去除率。氟的初始浓度分别为100和10 mg L〜（-1）。

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来源
《International conference on materials science;Joint Chinese-Mongolian-Russian international conference on functional materials》|2018年|79-86|共8页
会议地点 Erenhot(CN)
作者
Quanlai Yin; Siqin Zhao; Sin Asuha;
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Chemistry Environment Science College Inner Mongolia Normal University Inner Mongolia 81 Zhaowudalu Huhhot 010022 China;

Chemistry Environment Science College Inner Mongolia Normal University Inner Mongolia 81 Zhaowudalu Huhhot 010022 China Key Laboratory of Physics and Chemistry of Functional Materials Inner Mongolia 81 Zhaowudalu Huhhot 010022 China;

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Boehmite; Kaolinite; Adsorption; Congo red; Fluoride;

机译：勃姆石高岭石;吸附；刚果红；氟化物;
入库时间 2022-08-26 14:35:52

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Novel Approach for Synthesis of Mesoporous y-ALOOH Powder from Coal-Bearing Kaolinite and its Enhanced Adsorption Performance for Congo Red and Fluoride

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