Investigation the Structural Influences of Silver Oxide Addition in the Bioactive Phosphate Glasses

IF 1 Q3 PHYSICS, MULTIDISCIPLINARY East European Journal of Physics Pub Date : 2023-09-04 DOI:10.26565/2312-4334-2023-3-32
Ruqaya H. Hussian, Dunia K. Mahdi
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Abstract

This research investigates the impact of varying concentrations of silver oxide on the structure and morphology of phosphate bioactive glass (PBG). PBGs are gaining popularity as a potential replacement for traditional silicate glasses in biomedical applications due to their adjustable chemical resistance and exceptional bioactivity. Upon examination of the scanning electron microscope of the composites without Ag2O, it was observed that the grains tended to merge together, and the surface particles appeared to be larger than those in composites with Ag2O at concentrations of 0.25, 0.5, and 0.75 wt%. The study found that the diffraction pattern of phosphate bioactive glass composites sintered without Ag2O showed the presence of Strontium di-phosphate and Calcium di-phosphate. The XRD pattern of these composites without Ag2O revealed specific planes that corresponded to both types of di-phosphate. However, when Ag2O was added, a new cubic phase was detected, and the intensity of the calcium and strontium diphosphate increased with higher Ag2O content. The XRD pattern of the composites with Ag2O displayed specific planes that corresponded to Ag2O. In other words, the absence of Ag2O in the composite material led to larger particle sizes and less distinct boundaries between grains. In addition, it has been found that, as the concentration of Ag2O increased from 0 to 0.25, 0.5, and 0.75 wt%, the average crystallite size decreased from 36.2 to 31.7, 31.0, and 32.8 nm, respectively. These results suggest that the addition of Ag2O can effectively reduce the average crystallite size of the composite materials. Also, as the concentration of Ag2O increased from 0 g to 0.5 wt% within the composite material, the average lattice strain increased from 3.41·10-3 to 4.40·10-3. In simpler terms, adding Ag2O to the composite material resulted in a slight increase in the average lattice strain.
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氧化银对生物活性磷酸盐玻璃结构影响的研究
本研究探讨了不同浓度的氧化银对磷酸生物活性玻璃(PBG)结构和形态的影响。由于其可调节的耐化学性和卓越的生物活性,pbg作为传统硅酸盐玻璃的潜在替代品在生物医学应用中越来越受欢迎。对未添加Ag2O的复合材料的扫描电镜观察发现,在Ag2O浓度为0.25、0.5和0.75 wt%时,复合材料的晶粒趋于合并,表面颗粒比添加Ag2O的复合材料的表面颗粒大。研究发现,不含Ag2O烧结的磷酸盐生物活性玻璃复合材料的衍射图显示了二磷酸锶和二磷酸钙的存在。不含Ag2O的复合材料的XRD谱图显示出两种类型的二磷酸对应的特定平面。然而,当Ag2O加入时,检测到新的立方相,并且随着Ag2O含量的增加,钙和二磷酸锶的强度增加。Ag2O复合材料的XRD谱图显示出与Ag2O对应的特定平面。换句话说,复合材料中Ag2O的缺失导致了更大的颗粒尺寸和更不明显的晶粒边界。此外,我们还发现,当Ag2O的浓度从0 wt%增加到0.25、0.5和0.75 wt%时,平均晶粒尺寸分别从36.2 nm减小到31.7 nm、31.0 nm和32.8 nm。结果表明,Ag2O的加入可以有效降低复合材料的平均晶粒尺寸。同时,随着Ag2O在复合材料中的浓度从0 g增加到0.5 wt%,平均晶格应变从3.41·10-3增加到4.40·10-3。简而言之,在复合材料中加入Ag2O导致平均晶格应变略有增加。
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来源期刊
East European Journal of Physics
East European Journal of Physics PHYSICS, MULTIDISCIPLINARY-
CiteScore
1.10
自引率
25.00%
发文量
58
审稿时长
8 weeks
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