Title : ( Sonosynthesis of super-alkaline calcium-strontium oxide nanoparticles: Size, morphology, and crystallinity affected the catalytic activity )
Authors: Narjes Shahraini , Mohammad Hassan Entezari ,Abstract
For the first time, nanoparticles of calcium-strontium oxide were synthesized via ultrasound and entirely characterized by different methods. Particles synthesized in the conventional method with a size of 150 nm and cubic form change into the nanoparticles with a size of 30 nm and hexagonal structure under ultrasound. The nanoparticles were mesoporous and had a specific surface area of 47.29 m2/g with improved thermal stability and superalkaline properties. The effect of the size, crystallinity, and morphology of the catalyst was examined with respect to the transesterification reaction. Calcium-strontium oxide synthesized under indirect sonication has a more uniform size and morphology than the particles synthesized by the other two methods. The efficiency of the transesterification reaction using the ultrasonic synthesized catalyst was almost double that of the catalyst synthesized by the conventional method. Calcium-strontium oxide synthesized with minimal size and high surface area was highly effective in transesterification.
Keywords
, Calcium, Strontium oxide Nanoparticle Super, alkaline Mesoporous materials Ultrasonic irradiation@article{paperid:1091721,
author = {Shahraini, Narjes and Entezari, Mohammad Hassan},
title = {Sonosynthesis of super-alkaline calcium-strontium oxide nanoparticles: Size, morphology, and crystallinity affected the catalytic activity},
journal = {Materials Science and Engineering B},
year = {2022},
volume = {286},
number = {1},
month = {December},
issn = {0921-5107},
pages = {116060--10},
numpages = {-116050},
keywords = {Calcium-Strontium oxide
Nanoparticle
Super-alkaline
Mesoporous materials
Ultrasonic irradiation},
}
%0 Journal Article
%T Sonosynthesis of super-alkaline calcium-strontium oxide nanoparticles: Size, morphology, and crystallinity affected the catalytic activity
%A Shahraini, Narjes
%A Entezari, Mohammad Hassan
%J Materials Science and Engineering B
%@ 0921-5107
%D 2022