SYNTHESIS AND PHYSICOCHEMICAL CHARACTERISTICS OF MESOPOROUS ALUMINOSILICATES

К.M. Umbetkaliyeva, G. Vassilina, А.К. Abdrassilova, А.R. Khaiyrgeldinova, Т.К. Vassilina, Zh.Y. Zakirov, М.Kh. Taliyeva, А.К. Kaldybayeva
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Abstract

In the article, the synthesis of mesoporous aluminosilicates was carried out according to the developed methods, in which tetraethylorthosilicate Si(OC2H5)4 was used as a source of silicon, secondary aluminum butoxide (sec-BuO)3Al and aluminum triisopropoxide Al(i-OPr)3 were used as aluminum's sources. The synthesis of mesostructured aluminosilicate is based on the method of copolycondensation of silicon and aluminum sources in the presence of alcohol. Hexadecylamine (HDA, C16H33NH2) was used as a template for the formation of a porous structure. The physicochemical characteristics of the synthesized structured mesoporous aluminosilicates have been studied. It was found that the synthesized materials MAS-1 and MAS-2 possess high specific surface area from 511 to 1170.0 m2/g. The presence of a mesoporous and ordered structure in the synthesized aluminosilicates is confirmed by the data of low-temperature nitrogen adsorption/desorption, X-ray diffraction and FT-IR. To determine the relative strength of Brønsted and Lewis acid sites on the surface of mesoporous aluminosilicates, diffuse reflectance infrared Fourier transform spectroscopy (DRIFT) of adsorbed pyridine samples was carried out. DRIFT analysis data demonstrated a majority of Lewis acid sites on the surface of the synthesized materials. We are currently studying the possibility of applying these materials as acidic components of bifunctional catalysts for petrochemical N E W S OF THE NATIONAL ACADEMY OF SCIENCES OF THE REPUBLIC OF KAZAKHSTAN SERIES CHEMISTRY AND TECHNOLOGY ISSN 2224-5286 https://doi.org/10.32014/2020.2518-1491.94 Volume 6, Number 444 (2020), 22 – 29 UDC 665.64.097.3 MRNTI 61.51.17, 61.51.19 К.M. Umbetkaliyeva1,2, G.K. Vassilina1,2, А.К. Abdrassilova1 , А.R. Khaiyrgeldinova2, Т.К. Vassilina2,3, Zh.Y. Zakirov1, М.Kh. Taliyeva2 , А.К. Kaldybayeva2 1al-Farabi Kazakh National University, Almaty, Kazakhstan; 2SRIfor New Chemical Technologies and Materials, Almaty, Kazakhstan; 3Кazakh National Agrarian University, Almaty, Kazakhstan. E-mail: kamilla.u.m21@mail.ru, v_gulzira@mail.ru, albina06.07@mail.ru, asyltas_2008@mail.ru, v_tursunai@mail.ru, abuzhassulan@gmail.com, taliyevamadina@gmail.com, kaldybayeva.assylai@gmail.com SYNTHESIS AND PHYSICOCHEMICAL CHARACTERISTICS OF MESOPOROUS ALUMINOSILICATES Abstract. In the article, the synthesis of mesoporous aluminosilicates was carried out according to the developed methods, in which tetraethylorthosilicate Si(OC2H5)4 was used as a source of silicon, secondary aluminum butoxide (sec-BuO)3Al and aluminum triisopropoxide Al(i-OPr)3 were used as aluminum's sources. The synthesis of mesostructured aluminosilicate is based on the method of copolycondensation of silicon and aluminum sources in the presence of alcohol. Hexadecylamine (HDA, C16H33NH2) was used as a template for the formation of a porous structure. The physicochemical characteristics of the synthesized structured mesoporous aluminosilicates have been studied. It was found that the synthesized materials MAS-1 and MAS-2 possess high specific surface area from 511 to 1170.0 m2/g. The presence of a mesoporous and ordered structure in the synthesized aluminosilicates is confirmed by the data of low-temperature nitrogen adsorption/desorption, X-ray diffraction and FT-IR. To determine the relative strength of Brønsted and Lewis acid sites on the surface of mesoporous aluminosilicates, diffuse reflectance infrared Fourier transform spectroscopy (DRIFT) of adsorbed pyridine samples was carried out. DRIFT analysis data demonstrated a majority of Lewis acid sites on the surface of the synthesized materials. We are currently studying the possibility of applying these materials as acidic components of bifunctional catalysts for petrochemical processes.
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介孔硅铝酸盐的合成及其理化性质
本文以正硅酸四乙酯Si(OC2H5)4为硅源,仲丁醇铝(仲丁醇)3Al和三异丙氧基铝Al(i-OPr)3为铝源,按照所开发的方法合成了中孔硅铝酸盐。中孔结构硅铝酸盐的合成是基于硅和铝源在醇存在下的共聚方法。使用十六烷基胺(HDA,C16H33NH2)作为形成多孔结构的模板。研究了合成的结构介孔硅铝酸盐的物理化学特性。研究发现,合成的材料MAS-1和MAS-2具有从511到1170.0m2/g的高比表面积。低温氮吸附/脱附、X射线衍射和FT-IR数据证实了合成的硅铝酸盐中存在介孔有序结构。为了测定介孔铝硅酸盐表面Brønsted和Lewis酸位点的相对强度,对吸附吡啶样品进行了漫反射红外傅立叶变换光谱(DRIFT)。DRIFT分析数据表明,合成材料表面存在大部分路易斯酸位点。我们目前正在研究将这些材料用作哈萨克斯坦共和国国家科学院化学与技术系列ISSN 2224-5286石化N E W S双功能催化剂酸性组分的可能性https://doi.org/10.32014/2020.2518-1491.94第6卷,编号444(2020),22-29 UDC 665.64.097.3 MRNTI 61.51.17,61.51.19К.M.Umbetkaliyeva1,2,G.K.Vassilina 1,2,А.К.Abdrassilova1,А.R.Khaiyrgeldinova 2,Т.К.Vassilina2,3,Zh.Y.Zakirov1,М.Kh.Taliyeva2,А.К.Kaldybayeva2 1al Farabi哈萨克国立大学,哈萨克斯坦阿拉木图;2SRIforNewChemicalTechnologiesandMaterials,哈萨克斯坦阿拉木图;3Кazakh国立农业大学,哈萨克斯坦阿拉木图。电子邮件:kamilla.u.m21@mail.ru,v_gulzira@mail.ru,albina06.07@mail.ru,asyltas_2008@mail.ru,v_tursunai@mail.ru,abuzhassulan@gmail.com,taliyevamadina@gmail.com,kaldybayeva.assylai@gmail.com中孔硅酸铝的合成及其理化性质摘要。本文以正硅酸四乙酯Si(OC2H5)4为硅源,仲丁醇铝(仲丁醇)3Al和三异丙氧基铝Al(i-OPr)3为铝源,按照所开发的方法合成了中孔硅铝酸盐。中孔结构硅铝酸盐的合成是基于硅和铝源在醇存在下的共聚方法。使用十六烷基胺(HDA,C16H33NH2)作为形成多孔结构的模板。研究了合成的结构介孔硅铝酸盐的物理化学特性。研究发现,合成的材料MAS-1和MAS-2具有从511到1170.0m2/g的高比表面积。低温氮吸附/脱附、X射线衍射和FT-IR数据证实了合成的硅铝酸盐中存在介孔有序结构。为了测定介孔铝硅酸盐表面Brønsted和Lewis酸位点的相对强度,对吸附吡啶样品进行了漫反射红外傅立叶变换光谱(DRIFT)。DRIFT分析数据表明,合成材料表面存在大部分路易斯酸位点。我们目前正在研究将这些材料用作石化过程中双功能催化剂的酸性组分的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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