功能材料
功能材料
공능재료
Journal of Functional Materials
2015年
22期
22149-22158
,共10页
羟基磷灰石%丝素蛋白%复合材料%制备
羥基燐灰石%絲素蛋白%複閤材料%製備
간기린회석%사소단백%복합재료%제비
silk fibroin%hydroxyapatite%composite materials%preparation
采用水刺法制备了多孔丝素蛋白(SF)支架,通过原位矿化法制备了纳米羟基磷灰石(HAP)/丝素蛋白复合材料.HAP 呈现均匀棒状结构,而没有丝素蛋白支架时 HAP 仅形成颗粒状结构,这表明蛋白支架可诱导 HAP 形成均匀棒状结构,这可能是源于丝素蛋白中羧基和溶液中 Ca2+的静电作用;丝素蛋白支架起到了复合材料基材和 HAP 原位生长的高分子模板双重作用.采用红外光谱、X 射线衍射和力学性能测试对复合材料的结构性能进行了表征,红外谱图表明,HAP 中的 PO 3-4与 SF 中的—NH 2存在强烈的氢键相互作用,而 X 射线衍射图谱则表明复合材料中 SF 的保持了β折叠结构和结晶性能,使得复合材料具有良好的力学性能和多孔性能,有利于成骨细胞在支架上的增殖,同时,该方法制备的复合材料力学性能好,可大面积制备,成本低、制备方便,易于实现工业化,可望广泛用于骨修复支架材料.
採用水刺法製備瞭多孔絲素蛋白(SF)支架,通過原位礦化法製備瞭納米羥基燐灰石(HAP)/絲素蛋白複閤材料.HAP 呈現均勻棒狀結構,而沒有絲素蛋白支架時 HAP 僅形成顆粒狀結構,這錶明蛋白支架可誘導 HAP 形成均勻棒狀結構,這可能是源于絲素蛋白中羧基和溶液中 Ca2+的靜電作用;絲素蛋白支架起到瞭複閤材料基材和 HAP 原位生長的高分子模闆雙重作用.採用紅外光譜、X 射線衍射和力學性能測試對複閤材料的結構性能進行瞭錶徵,紅外譜圖錶明,HAP 中的 PO 3-4與 SF 中的—NH 2存在彊烈的氫鍵相互作用,而 X 射線衍射圖譜則錶明複閤材料中 SF 的保持瞭β摺疊結構和結晶性能,使得複閤材料具有良好的力學性能和多孔性能,有利于成骨細胞在支架上的增殖,同時,該方法製備的複閤材料力學性能好,可大麵積製備,成本低、製備方便,易于實現工業化,可望廣汎用于骨脩複支架材料.
채용수자법제비료다공사소단백(SF)지가,통과원위광화법제비료납미간기린회석(HAP)/사소단백복합재료.HAP 정현균균봉상결구,이몰유사소단백지가시 HAP 부형성과립상결구,저표명단백지가가유도 HAP 형성균균봉상결구,저가능시원우사소단백중최기화용액중 Ca2+적정전작용;사소단백지가기도료복합재료기재화 HAP 원위생장적고분자모판쌍중작용.채용홍외광보、X 사선연사화역학성능측시대복합재료적결구성능진행료표정,홍외보도표명,HAP 중적 PO 3-4여 SF 중적—NH 2존재강렬적경건상호작용,이 X 사선연사도보칙표명복합재료중 SF 적보지료β절첩결구화결정성능,사득복합재료구유량호적역학성능화다공성능,유리우성골세포재지가상적증식,동시,해방법제비적복합재료역학성능호,가대면적제비,성본저、제비방편,역우실현공업화,가망엄범용우골수복지가재료.
Porous silk fibroin scaffold was first prepared by using spunlacing technique,then nano-hydroxyapa-tite (HAP)/silk fibroin composite materials were synthesized via in-situ mineralization.HAP showed a uniform rod-like structure,but only granular structures were observed without silk fibroin scaffold,indicating that silk fibroin scaffold can induce the formation of rod-like structures.This was attributed to the electrostatic interac-tions between carboxyl groups of silk fibroin and Ca2 + in the solution.Thus silk fibroin scaffold plays a dual role of polymer composites substrate and template for HAP in-situ growth.The structure and properties of the com-posites were characterized by using infrared spectroscopy,X-ray diffraction and mechanical testing.Infrared spectra showed the presence of hydrogen bonding interactions between PO 3 -4 of HAP and —NH 2 of silk fibroin, while X-ray diffraction patterns suggested that the composites maintained the β-sheet structure and crystalliza-tion properties of silk fibroin scaffold.Thus the composites resulted with good mechanical properties and porous structure,which was helpful in osteoblast proliferation and the use as bone repair scaffolds.At the same time, the composite materials showed very well mechanical performance,but easy preparation for large area,low cost,easy to realize industrialization,and will be possible used for bone repair scaffold material widely in fu-ture.