The effect of calcination temperature and solvent on the synthesis of CuO nanoparticles and assessment as an anti-leishmania agent

TECHNOLOGIES AND MATERIALS FOR RENEWABLE ENERGY, ENVIRONMENT AND SUSTAINABILITY: TMREES19Gr Pub Date : 2019-12-11 DOI:10.1063/1.5138553

D. Ruda, L. Q. Al-Karam, Eman Ghadhban

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引用次数: 2

Abstract

Nanoparticles based materials are emerging field that being studied as an alternative solution to control and destroy microorganisms which are being resistance to conventional drugs. Eco-friendly, simple and cost-effective co-precipitation method was used to synthesize CuO NPs. The effect of the calcination temperature (100, 250 and 400 °C)and solvent (water and ethanol) on the synthesis process of nanoparticles was studied. UV-VIS spectroscopy was used to measure the absorption spectra of CuO NPs. The functional groups and the interaction between copper and oxygen were detected by FTIR. The size (18-33 nm), roughness (2-8 nm ) and purity of synthesized CuO NPs were examined by AFM and EDX. CuO NPs were pure as showed by the spectra of EDX with weight percentage for O (19-28wt%) and Cu ( 64-77wt %). Different volumes (12.5 µl,25 µ1,50 µ1,75 µ1,100 µ1 and 150 µl) of CuO NPs with 150 µg /ml were used to evaluate their antimicrobial activity against Leishmania (Leishmania donovani and Leishmania Tropica). It has been found that as the calcination temperature increases, the size of nanoparticle increases due to atomic diffusion. The size of nanoparticles at the same calcination temperature is smaller when using ethanol as a solvent instead of water due to the difference in the alcoholic chain. Inhibition activity against both types of leishmania was found, as well as it was correlated with the size and concentrations of nanoparticles.Nanoparticles based materials are emerging field that being studied as an alternative solution to control and destroy microorganisms which are being resistance to conventional drugs. Eco-friendly, simple and cost-effective co-precipitation method was used to synthesize CuO NPs. The effect of the calcination temperature (100, 250 and 400 °C)and solvent (water and ethanol) on the synthesis process of nanoparticles was studied. UV-VIS spectroscopy was used to measure the absorption spectra of CuO NPs. The functional groups and the interaction between copper and oxygen were detected by FTIR. The size (18-33 nm), roughness (2-8 nm ) and purity of synthesized CuO NPs were examined by AFM and EDX. CuO NPs were pure as showed by the spectra of EDX with weight percentage for O (19-28wt%) and Cu ( 64-77wt %). Different volumes (12.5 µl,25 µ1,50 µ1,75 µ1,100 µ1 and 150 µl) of CuO NPs with 150 µg /ml were used to evaluate their antimicrobial activity against Leishmania (Leishmania donovani and Leishmania Tropica). It...

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煅烧温度和溶剂对氧化铜纳米颗粒合成及抗利什曼病剂性能的影响

纳米颗粒基材料作为一种控制和消灭对常规药物产生耐药性的微生物的替代解决方案正在被研究。采用环保、简单、经济的共沉淀法合成CuO NPs。研究了煅烧温度(100℃、250℃和400℃)和溶剂(水和乙醇)对纳米颗粒合成过程的影响。采用紫外可见光谱法测定了CuO NPs的吸收光谱。用红外光谱(FTIR)检测了铜与氧之间的官能团和相互作用。采用原子力显微镜(AFM)和电子能谱(EDX)对合成的CuO纳米粒子的尺寸(18 ~ 33 nm)、粗糙度(2 ~ 8 nm)和纯度进行了检测。EDX光谱显示CuO NPs是纯的，重量百分比为O (19-28wt%)和Cu (64-77wt %)。采用不同体积(12.5µl、25µ1、50µ1、75µ1100µ1和150µl)的CuO NPs(浓度为150µg /ml)，测定其对利什曼原虫(多诺瓦利什曼原虫和热带利什曼原虫)的抑菌活性。研究发现，随着煅烧温度的升高，纳米颗粒的尺寸因原子扩散而增大。在相同的煅烧温度下，用乙醇代替水作为溶剂，由于乙醇链的不同，纳米颗粒的尺寸更小。发现了对两种利什曼原虫的抑制活性，并且这种抑制活性与纳米颗粒的大小和浓度有关。纳米颗粒基材料作为一种控制和消灭对常规药物产生耐药性的微生物的替代解决方案正在被研究。采用环保、简单、经济的共沉淀法合成CuO NPs。研究了煅烧温度(100℃、250℃和400℃)和溶剂(水和乙醇)对纳米颗粒合成过程的影响。采用紫外可见光谱法测定了CuO NPs的吸收光谱。用红外光谱(FTIR)检测了铜与氧之间的官能团和相互作用。采用原子力显微镜(AFM)和电子能谱(EDX)对合成的CuO纳米粒子的尺寸(18 ~ 33 nm)、粗糙度(2 ~ 8 nm)和纯度进行了检测。EDX光谱显示CuO NPs是纯的，重量百分比为O (19-28wt%)和Cu (64-77wt %)。采用不同体积(12.5µl、25µ1、50µ1、75µ1100µ1和150µl)的CuO NPs(浓度为150µg /ml)，测定其对利什曼原虫(多诺瓦利什曼原虫和热带利什曼原虫)的抑菌活性。它……

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TECHNOLOGIES AND MATERIALS FOR RENEWABLE ENERGY, ENVIRONMENT AND SUSTAINABILITY: TMREES19Gr

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