Abstract
Synergistic Effect of Titanium Dioxide (TiO2) and Ionizing Radiation on Thermal and Mechanical Properties of Carboxymethyl Cellulose (CMC) for Potential Application in Removal of Basic Dye from Wastewater
Highlights
Water contamination happens in various ways, an enormous quantity of water pollution, as a product of different industrial effluents, happens during the pollution with organic, inorganic and high volume of dyes and this causes the contamination of environment and the orderly health problems for living frameworks: people, plants and animals [1]
The bands at 1175, 1605 and 1023 cm-1 corresponded to C-O stretching frequencies of (C-O-C), which are stereotypical of the polysaccharide backbone
As can be seen in figure 1, the Fourier Transforms Infrared Spectroscopy (FTIR) spectra of the prepared composite films were equivalent to the pure Carboxymethyl cellulose (CMC) composite film with low difference in peaks intensity
Summary
Water contamination happens in various ways, an enormous quantity of water pollution, as a product of different industrial effluents, happens during the pollution with organic, inorganic and high volume of dyes and this causes the contamination of environment and the orderly health problems for living frameworks: people, plants and animals [1]. Radiation polymerization has a lot of advantages over other conventional strategies' science it does not involve the utilization of the catalysts or added substances to start the reaction, no compelling reason to include any initiator or crosslinker, disinfection, no waste, more environment friendly and generally low running expense [21,22]. In this manner, in contrast to the chemical initiation technique, the radiation prompted technique leaves no chemical residues, is free of pollution, the purity of the processed yield can be kept up. The results showed that the prepared composite films significantly removed this dye with maximum adsorption capacity (123.6 mg/g)
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