SYNTHESIS AND CHARACTERIZATION OF Mn-DOPED CALCIUM HYDROXYAPATITE PARTICLES

K. Kandori, Yuto Yamaguchi
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引用次数: 7

Abstract

Colloidal manganese (Mn)-doped calcium hydroxyapatites (abbreviated as MnHap) were prepared by the coprecipitation method. The Mn/(Ca+Mn) atomic ratio in the solution (abbreviated as XMn) was varied from 0~0.30. The precipitated particles were characterized by various physicochemical analyses, i.e., TEM, XRD, N2 and H2O adsorptions, TG, FTIR, ICP-AES and XPS measurements. The MnHap particles were produced at 0.01≤XMn≤0.2. The calcium hydroxyapatite produced without Mn ions (XMn=0) was rod-like particles with 23 nm (width) x 55 nm (length). With increase in XMn up to 0.06, the particle width was decreased. The thickness of the rod-like particles produced at XMn≥0.08 was further decreased to ca. 3~5 nm. The spherical nano-particles with ca. 7 nm in diameter precipitated at XMn=0.3 were -TCP and amorphous particles of -MnOOH precursor. The particle color was varied from white to brown, dark-brown and pale-red. The ICP-AES measurement revealed that all the MnHap particles are cation-deficient with XMn values among 1.52~1.63. The lattice constants of c-axis was decreased with increase in XMn at XMn≥0.05 by incorporation of Mn(III) and Mn(IV) ions with smaller atomic radii, 0.072 and 0.053 nm, respectively, instead of Mn(II) ones (0.089 nm). The XPS measurement also revealed that there is no Mn(II) in the MnHap particles but they include both Mn(III) and Mn(IV) ions. The in vacuo IR measurements suggested that the incorporation of Mn ions increased the acidity of surface P-OH groups. (Received May 11, 2017; Accepted Oct 16, 2017)
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掺锰羟基磷灰石钙颗粒的合成与表征
采用共沉淀法制备了掺杂锰(Mn)的胶体羟基磷灰石(简称MnHap)。溶液(简称XMn)中Mn/(Ca+Mn)原子比在0~0.30之间变化。通过TEM、XRD、N2和H2O吸附、TG、FTIR、ICP-AES和XPS等理化分析对沉淀颗粒进行了表征。在0.01≤XMn≤0.2时制备出MnHap颗粒。无Mn离子(XMn=0)制备的钙羟基磷灰石为23 nm(宽)× 55 nm(长)的棒状颗粒。随着XMn的增加至0.06,颗粒宽度减小。在XMn≥0.08时产生的棒状颗粒的厚度进一步减小到约3~5 nm。在XMn=0.3下析出直径约为7 nm的球形纳米颗粒为-TCP和-MnOOH前驱体的无定形颗粒。颗粒的颜色从白色到棕色、深棕色和淡红色不等。ICP-AES测定结果表明,MnHap颗粒均为阳离子缺失,XMn值在1.52~1.63之间。当XMn≥0.05时,c轴的晶格常数随XMn的增加而降低,这是由于加入了原子半径较小的Mn(III)和Mn(IV)离子,分别为0.072和0.053 nm,而不是Mn(II)离子(0.089 nm)。XPS测量还显示,MnHap颗粒中不存在Mn(II),但它们同时包含Mn(III)和Mn(IV)离子。真空红外测量表明,Mn离子的加入增加了表面P-OH基团的酸度。(2017年5月11日收稿;接受2017年10月16日)
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