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使用有机改性剂和水热技术对纳米羟基磷灰石进行晶体结构改性

Crystal structure modification of nano-hydroxyapatite using organic modifiers and hydrothermal technique.

作者信息

Kawsar Md, Sahadat Hossain Md, Tabassum Sumaya, Islam Dipa, Bahadur Newaz Mohammed, Ahmed Samina

机构信息

Institute of Glass & Ceramic Research and Testing, Bangladesh Council of Scientific and Industrial Research (BCSIR) Dhaka-1205 Bangladesh

Department of Applied Chemistry and Chemical Engineering, Noakhali Science and Technology University Noakhali Bangladesh.

出版信息

RSC Adv. 2024 Sep 18;14(40):29665-29674. doi: 10.1039/d4ra03111c. eCollection 2024 Sep 12.

DOI:10.1039/d4ra03111c
PMID:39297045
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11409177/
Abstract

Hydroxyapatite (HAp) synthesis was achieved through a hydrothermal method involving orthophosphoric acid and calcium hydroxide. Different organic modifiers such as urea, naphthalene, and palmitic acid were applied in the reaction system to modify the crystallite size along with the morphology of HAp. The synthesized HAp was validated X-ray diffraction (XRD) data, Fourier Transform Infrared (FTIR) spectra, Field Emission Scanning Electron Microscopy (FESEM) image, and optical bandgap energy (<6 eV) was determined through UV-vis spectrophotometry. Apart from that, different techniques such as Scherrer's method, Halder-Wagner model, Williamson-Hall method, size-strain plot, as well as Sahadat-Scherrrer's models were applied for calculating the crystal domain size, and some models also incorporated energy density, strain, and stress. The synthesized HAp has a crystal structure that falls within the permissible range of <100 nm, as established by analyzing the XRD data using established models. Nevertheless, the values for strain (from -0.0006 to 0.0062), stress (from -30 902 to 36 940 N m), as well as energy density (from 4 × 10 to 113.72 J m) were likewise computed for the synthesized HAp. The texture co-efficient analysis reveals that doped HAp is grown in the (202) and (112) planes, palmitic acid_HAp in (002), (112), and (202) planes, while all the synthesized HAp (pure HAp, urea, naphthalene) is grown in the (002) and (112) planes. Rietveld refinement was also performed to estimate the quantative phase percentage from XRD data.

摘要

通过涉及正磷酸和氢氧化钙的水热法实现了羟基磷灰石(HAp)的合成。在反应体系中应用了不同的有机改性剂,如尿素、萘和棕榈酸,以改变HAp的微晶尺寸和形态。通过X射线衍射(XRD)数据、傅里叶变换红外(FTIR)光谱、场发射扫描电子显微镜(FESEM)图像对合成的HAp进行了验证,并通过紫外可见分光光度法测定了光学带隙能量(<6 eV)。除此之外,还应用了不同的技术,如谢乐法、哈尔德 - 瓦格纳模型、威廉姆森 - 霍尔法、尺寸 - 应变图以及萨哈达特 - 谢乐模型来计算晶域尺寸,一些模型还纳入了能量密度、应变和应力。通过使用既定模型分析XRD数据确定,合成的HAp具有落在<100 nm允许范围内的晶体结构。然而,同样计算了合成HAp的应变值(从 -0.0006到0.0062)、应力值(从 -30902到36940 N/m)以及能量密度值(从4×10到113.72 J/m)。织构系数分析表明,掺杂的HAp在(202)和(112)平面生长,棕榈酸_HAp在(002)、(112)和(202)平面生长,而所有合成的HAp(纯HAp、尿素、萘)在(002)和(112)平面生长。还进行了里特韦尔德精修,以从XRD数据估计定量相百分比。

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