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As a reliable,
sustainable, and environmentally friendly method for producing a
variety of nanomaterials, green synthesis has attracted a lot of
interest. Magnesium oxide nanoparticles (MgO-NPs), which have a
distinctive biocompatible nature, have been exploited as a superior
nanocarrier. Due to their high degree of ionization, photocatalytic
properties, and effective resistance to high temperatures, they have
many advantages. They have recently been used as a substrate in the
biomedical industry and as a novel utilization in refractory
materials. The present study involved the 1st-time biogenic
synthesis of MgO-NPs successfully by using the leaf extract of
Tinospora cordifolia. T. cordifolia is commonly known as “Guduchi”,
which was used not only as a reducing agent but also as a capping
agent too, resulting in increased stability. The effect of aging was
observed for the 1st time on the properties (i.e., stability,
dispersity, and size of MgO-NPs) of biogenic synthesized MgONPs.
Here, the aging factor was studied for different hours (named as
samples 1 and 2) along with the constant temperature during the
green production of MgO-NPs. Sample 1 was stirred for 12 h, while
correlated sample 2 was stirred for 24 h in the continuation form at
constant temperature (i.e., 40°C). It was observed that as the time
duration of stirring with temperature increased, the stability,
homogeneity, and decrease in size of the nanoparticles increased |
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Key words: Pedda Cheruvu, Wetlands, Dynamic, Primary
productivity, Water quality index. |
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Indian Journal of Advances in Chemical Science,
Volume: 12, Issue : 2, April 2024
ISSN No.: 2320-0898 (Print);
2320-0928 (Electronic) |
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