Студенттер мен жас ғалымдардың «фараби әлемі» атты халықаралық ғылыми конференциясы
particle size increased by sewing them together
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Сборник конф Фараби Әлемі 2023 химфак-печать
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- INVESTIGATION OF COMPLEX FORMATION BETWEEN SODIUM ALGINATE AND COPPER ION Serdaly D., Maksotova K.S., Yersainova D.
particle size increased by sewing them together. In conclusion, synthesized beta zeolite was tested as the support for bimetallic catalysts which showed the selectivity as above and the fast reactivity as the nitrates reduction was completed in 10 minutes instead of 30 days. The research work was financially supported by SC at MEHS RK as part of №AP14870836 “Development of Catalytic Wastewater Treatment Technology for Enhanced Removal of Nitrogen Species”. «Фараби Әлемі» атты студенттер мен жас ғалымдардың халықаралық конференциясы 250 INVESTIGATION OF COMPLEX FORMATION BETWEEN SODIUM ALGINATE AND COPPER ION Serdaly D., Maksotova K.S., Yersainova D. Research advisor: Bakirova B. КазНУ имени аль - Фараби serdaly02@bk.ru Complex compounds are chemical compounds that consist of a central metal ion or atom bonded to one or more ligands (molecules or ions) through coordinate covalent bonds. These compounds are essential in many fields, including medicine, materials science, and industrial chemistry, because of their unique properties and applications. One example of a complex copper compound is formed during the reaction between copper nitrate and sodium alginate. Sodium alginate is a natural polymer derived from seaweed that contains carboxylate groups (-COO-) that can act as ligands for metal ions. When sodium alginate is mixed with copper nitrate, the copper ions form coordinate covalent bonds with the carboxylate groups in the sodium alginate molecules, resulting in the formation of a complex copper compound. The complex copper compound formed in this reaction has several important properties and applications. Firstly, it has excellent catalytic properties and can be used as a catalyst in many chemical reactions. Secondly, it has antimicrobial properties and can be used as an antimicrobial agent in medical and industrial applications. Thirdly, it has unique optical properties and can be used as a colorant or pigment in a variety of applications, including textiles, paints, and cosmetics. Copper nitrate was used as a precursor, while sodium alginate was used as a stabilizing agent to form a gel-like matrix for the copper ions. The resulting complex compound embedded in a sodium alginate matrix were characterized using various methods, including conductometry, pH- metric titration, IR spectroscopy. In the determination of complexation by conductometric titration, sodium alginate was titrated with a solution of copper nitrate. As a result, it was found that the ratio between sodium alginate and metal ion was 2.5 mol : 1 mol. This means that one mole of copper will bind to 2.5 mole of polymer link. The analysis using infrared spectroscopy has revealed that the film contains 0.1 mol/l of sodium alginate and 0.1 mol/l of copper nitrate crystallohydrate. This research aims to further investigate the catalytic properties and potential applications of the complex copper compound formed as a result of the reaction between copper nitrate and sodium alginate. Overall, it should be noted that obtaining copper complex compound from copper nitrate using sodium alginate is a promising area of research that has potential applications in various fields, making it an important and valuable topic of study. жүктеу/скачать 2,6 Mb. Достарыңызбен бөлісу:
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