Hexafluorosilicic Acid (FSA): from Hazardous Waste to Precious Resource in Obtaining High Value-Added Mesostructured Silica

Mirko Antonio  Vacca; Claudio  Cara; Valentina  Mameli; Marco  Sanna Angotzi; Mariano Andrea  Scorciapino; Maria Giorgia  Cutrufello; Anna  Musinu; Vaclav  Tyrpekl; Luca  Pala; Carla  Cannas

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Hexafluorosilicic Acid (FSA): from Hazardous Waste to Precious Resource in Obtaining High Value-Added Mesostructured Silica

机译：六氟硅酸（FSA）：从危险废物到获得高附加值型型二氧化硅的珍贵资源

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In this work, industrial waste hexafluorosilicic acid (H_(2)SiF_(6) or FSA) has been proven to be a low-cost alternative to silicate esters for the synthesis of high-quality MCM-41 (high surface area, high degree of order, narrow pore size distribution, high thermal stability) through a head-to-head comparison between the most common silica precursor, tetraethylorthosilicate (TEOS), and FSA. The effect of different parameters such as temperature, time, hydrothermal treatment, and the presence of ethyl acetate has been explored by studying the textural, structural, and morphological features. On the most promising samples, thermal and hydrothermal stability has been assessed, indicating a higher thermal stability for the FSA-derived sample, due to the thicker walls, and comparable hydrothermal stability. The mother solution treatment has allowed the obtainment of nanostructured fluorite as an additional valuable product and a CTAB-rich ammonia solution for successive synthesis with FSA. Recovery processes for the templating agent entrapped in the MCM-41 mesostructure have also been explored for both FSA- and TEOS-derived samples, showing an easier removal in the case of FSA-MCM-41. Moreover, mesostructured silica derived from FSA has also been proven to be an ideal support to design efficient and regenerable mesostructured iron oxide-based sorbents for H_(2)S removal from syngas, showing similar performance to that of the corresponding nanocomposite prepared from TEOS.

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来源
《ACS Sustainable Chemistry & Engineering》 |2020年第38期|共15页
作者
Mirko Antonio Vacca; Claudio Cara; Valentina Mameli; Marco Sanna Angotzi; Mariano Andrea Scorciapino; Maria Giorgia Cutrufello; Anna Musinu; Vaclav Tyrpekl; Luca Pala; Carla Cannas;
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作者单位

University of Cagliari Department of Chemical Science;

University of Cagliari Department of Chemical Science;

University of Cagliari Department of Chemical Science;

University of Cagliari Department of Chemical Science;

University of Cagliari Department of Chemical Science;

University of Cagliari Department of Chemical Science;

University of Cagliari Department of Chemical Science;

Charles University in Prague Department of Inorganic Chemistry;

Fluorsid S.p.A Area Industriale di Cagliari 2a Strada Macchiareddu;

University of Cagliari Department of Chemical Science;

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原文格式 PDF
正文语种 eng
中图分类化学工业;
关键词
Synthesis; Waste; MCM-41; Hexafluorosilicic acid; Sorbent;

机译：合成;废物;MCM-41;六氟硅酸;吸附剂;

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机译：六氟硅酸（FSA）：从危险废物到获得高附加值的型二氧化硅的珍贵资源
10. Technical Resource Document for Obtaining Variances from the Secondary Containment Requirement of Hazardous Waste Tank Systems. Volume 2. Risk-Based Variance [R] . 1987

机译：获取危险废物箱系统二级遏制要求差异的技术资源文件。第2卷。基于风险的差异

Hexafluorosilicic Acid (FSA): from Hazardous Waste to Precious Resource in Obtaining High Value-Added Mesostructured Silica

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