XPS study for the microstructure development of hydroxyapatite-collagen nanocomposites cross-linked using glutaraldehyde.

Chang MC; Tanaka J

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XPS study for the microstructure development of hydroxyapatite-collagen nanocomposites cross-linked using glutaraldehyde.

机译：XPS研究使用戊二醛交联的羟基磷灰石-胶原蛋白纳米复合材料的微观结构。

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X-ray photoelectron spectroscopy (XPS) was measured for the dry body of hydroxyapatite (HAP)-collagen (COL) nanocomposites cross-linked using glutaraldehyde (GA). Survey scan XPS showed the elemental spectra of N, C, O, Ca and P, which came from HAP and COL. The covalent bond formation between Ca2+ of HAP and RCOO- of COL molecule was confirmed by XPS. The bridge formation between COL fibers could be assessed from C1s and N1s band spectrum. The dehydration of swelling water during drying led to the reduction of linking distance for pendant GA between COL fibrils and contributed to further cross-linkage reaction. Cross-linkage induced the enlargement of length scale unit of COL. The modification of length scale was doing the key role of structure manipulation in the cross-linked HAP-COL nanocomposites.

机译：测量了使用戊二醛（GA）交联的羟基磷灰石（HAP）-胶原蛋白（COL）纳米复合材料的干燥体的X射线光电子能谱（XPS）。 XPS测量扫描显示N，C，O，Ca和P的元素光谱，它们来自HAP和COL。 XPS证实了HAP的Ca2 +与COL分子的RCOO-之间的共价键形成。可以从C1和N1谱带评估COL纤维之间的桥形成。干燥过程中溶胀水的脱水导致COL原纤维之间悬垂GA的连接距离缩短，并有助于进一步的交联反应。交联引起COL长度尺度单位的扩大。在交联的HAP-COL纳米复合材料中，长度尺度的修饰起着结构操纵的关键作用。

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《Biomaterials》 |2002年第18期|共7页
作者
Chang MC; Tanaka J;
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正文语种 eng
中图分类医用一般科学;
关键词
Durapatite; Glutaral; Collagen; Length; development aspects; 硬羟基磷灰石; 戊二醛; 胶原;

机译：Durapatite;Glutaral;Collagen;Length;development aspects;硬羟基磷灰石;戊二醛;胶原;

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XPS study for the microstructure development of hydroxyapatite-collagen nanocomposites cross-linked using glutaraldehyde.

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