Novel Complex Titanium NASICON-Type Phosphates as Acidic Catalysts for Ethanol Dehydration

The conversion of ethanol towards ethylene and diethyl ether in the presence of catalysts requires special consideration from the perspective of green chemistry. Ethanol dehydration was studied on a complex titanium phosphate MAlTiP (M0.5(1+x)AlxTi2-x(PO4)3 with M = Ni, Mn (x = 0; 0.2)) catalysts, alongside a NASICON-type structure synthesized by the sol–gel method. The initial catalysts were characterized by N2 gas sorption, SEM, XRD and spectroscopic methods (Raman and DRIFT of adsorbed CO and C6H6). The results revealed that all catalysts exhibited high activity and selectivity at 300–420 °C. The conversion of ethanol increases with the reaction temperature, reaching 67–80% at 420 °C. The MnAlTiP exhibited the highest ethylene selectivity among other catalysts, with 87% at 420 °C. The aluminum modification improved the acid properties of the catalysts, due to the appearance of Lewis acid sites (LAS) and the strength moderate Brønsted acid sites (BAS). It was shown that the activity of complex phosphates in ethanol dehydration increases with the strength of the Brønsted acid sites (BAS).

Авторы
Zhukova Anna I. 1 , Asabina Elena A.2 , Kharlanov Andrey N.3 , Osaulenko Diana A. 1 , Chuklina Sofia G. 1 , Zhukov Dmitry Yu.4 , Pet’kov Vladimir I.2 , Deyneko Dina V.3, 5
Журнал
Издательство
MDPI AG
Номер выпуска
1
Язык
Английский
Страницы
185
Статус
Опубликовано
Подразделение
кафедра физической и коллоидной химии
Том
13
Год
2023
Организации
  • 1 Российский университет дружбы народов
  • 2 Department of Chemistry, Lobachevsky University, Nizhny Novgorod 603950, Russia
  • 3 Department of Chemistry, Lomonosov Moscow State University, Moscow 119991, Russia
  • 4 Technology Centre, Mendeleev University of Chemical Technology, 9, Miusskaya Squ., Moscow 125047, Russia
  • 5 Laboratory of Arctic Mineralogy and Material Sciences, Kola Science Centre, Russian Academy of Sciences, 14 Fersman Str., Apatity 184209, Russia
Ключевые слова
complex titanium phosphates; NASICON; ethanol dehydration; ethylene; diethyl ether; Lewis acid sites; Brønsted acid sites
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