Synthesis and Adsorbent Performance of Modified Biochar with Ag/MgO Nanocomposites for Heat Storage Application

Synthesis and Adsorbent Performance of Modified Biochar with Ag/MgO Nanocomposites for Heat Storage Application

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Heat storage is a major problem in the world.Many research is going on the heat storage application.This research investigates the novel Ag/MgO/biochar nanocomposites for heat storage.Ag/MgO/biochar nanocomposites were fabricated using solvent-free ball milling techniques.According to several analytical measurements, the Ag/MgO nanoparticles in biochar are uniformly dispersed across the carbon interface.

This type of adsorbent material has been characterized by different techniques such E Vitamins as X-ray diffraction pattern analysis (XRD), FTIR analysis, scanning electron microscope (SEM), and transmission electron microscope (TEM) as all indicate the surface morphology and successful ball milling synthesis of Ag/MgO nanocomposites.The UV visible spectroscopy wavelength range of AgNPs and MgONPs is 330 nm and 470 nm, respectively.FTIR analysis revealed that different functional groups of modified biochar nanocomposites such as O-H group are 3728 cm-1 and for C-H Card Case bond is 932 cm-1, C-O group is 1420 cm-1, and C=O is 1785 cm-1, respectively.Adsorption tests showed that 1.0 gL-1 dosage with 60% phosphate removal, an ion, and 0.

2 gL-1 of dosages that had 85% methylene blue decomposition, a charged synthetic dye, were the lowest absorption levels.This research suggests that ball milling offers the advantages of stabilization and chemical adaptability for customized remediation of different atmospheric contaminants.Ball milling is a facile and feasible process to fabricate carbon-metal-oxide nanomaterials.