Development of a tricomponent composite graphene oxide-chitosan-hydroxyapatite for bone tissue engineering

Ravichandran Y. Dominic; Villaret T.; Rajesh R.

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Development of a tricomponent composite graphene oxide-chitosan-hydroxyapatite for bone tissue engineering

机译：用于骨组织工程的三组分复合氧化石墨烯-壳聚糖-羟基磷灰石的开发

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The hydroxyapatite (HAP) was isolated. from the bones of the Cat la fish (Cada calla) by thermal calcinations at 400 degrees C, 600 degrees C, 800 degrees C and 900 degrees C. Among them the optimum temperature was found to be 800 degrees C. The graphite (GP) was converted into graphene oxide (GO) and tricomponent composite of GO-chitosanTHAP was prepared, The tricomponent composite was characterized by therthogrdirimetric and ciifferential thermogravimetric (DTG) analysis Fourier Transformed Infrared spectroscopir (FTIR) and X-ray diffraction (XRD): The Compressive and ensile strength of the composite was found: be 9.77 +/- 1.47 MPa and 0.650 +/- 0.276 MPa respectively. The compressive strength. exhibited by the tricomponent composite met the requirement for bone tissue engineering (3-10 MPa).

机译：分离出羟基磷灰石（HAP）。通过在400摄氏度，600摄氏度，800摄氏度和900摄氏度下进行热煅烧从卡特彼勒鱼（Cada马蹄莲）的骨头中提取的。最适温度为800摄氏度。石墨（GP）将其转化为氧化石墨烯（GO），并制备GO-壳聚糖THAP的三组分复合物，并通过热重和差示热重（DTG）分析，傅立叶变换红外光谱仪（FTIR）和X射线衍射（XRD）对三组分复合物进行表征：并且发现复合物的抗张强度分别为9.77 +/- 1.47MPa和0.650 +/- 0.276MPa。抗压强度。三组分复合材料所展示的材料满足骨组织工程的要求（3-10 MPa）。

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《Journal of the Indian Chemical Society》 |2015年第5期|共3页
作者
Ravichandran Y. Dominic; Villaret T.; Rajesh R.;
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正文语种 eng
中图分类化学;
关键词
Hydroxyapatite; chitosan; graphene oxide; composite;

机译：羟基磷灰石;壳聚糖;氧化石墨烯;复合材料;

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1. Development of a tricomponent composite graphene oxide-chitosan-hydroxyapatite for bone tissue engineering [J] . Ravichandran Y. Dominic, Villaret T., Rajesh R. Journal of the Indian Chemical Society . 2015,第5期

机译：用于骨组织工程的三组分复合氧化石墨烯-壳聚糖-羟基磷灰石的开发
2. Development of a new carbon nanotube–alginate–hydroxyapatite tricomponent composite scaffold for application in bone tissue engineering [J] . Rajendiran Rajesh, Y Dominic Ravichandran International Journal of Nanomedicine . 2015,第Supplementa1期

机译：新型碳纳米管-藻酸盐-羟基磷灰石三组分复合支架的开发用于骨组织工程
3. Development of Arabinoxylan-Reinforced Apple Pectin/Graphene Oxide/Nano-Hydroxyapatite Based Nanocomposite Scaffolds with Controlled Release of Drug for Bone Tissue Engineering: In-Vitro Evaluation of Biocompatibility and Cytotoxicity against MC3T3-E1 [J] . Wafa Shamsan Al-Arjan, Muhammad Umar Aslam Khan, Samina Nazir, Coatings . 2020,第11期

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4. Tricomponent Fibrous Scaffolds with Dual Delivery of rhVEGF and rhBMP-2 for Bone Tissue Engineering [C] . Chong Wang, Min Wang Society for Biomaterials annual meeting and exposition . 2013

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5. Development of a composite bone graft substitute for bone tissue engineering applications. [D] . Thomas, Chuck Brandon. 2005

机译：开发用于骨组织工程应用的复合骨移植替代物。
6. Development of a new carbon nanotube–alginate–hydroxyapatite tricomponent composite scaffold for application in bone tissue engineering [O] . Rajendiran Rajesh, Y Dominic Ravichandran 2015

机译：新型碳纳米管-藻酸盐-羟基磷灰石三组分复合支架的开发用于骨组织工程
7. Two‐dimensional graphene oxide‐reinforced porous biodegradable polymeric nanocomposites for bone tissue engineering [O] . Behzad Farshid, Gaurav Lalwani, Meisam Shir Mohammadi, 2019

机译：二维石墨烯氧化物增强多孔可生物降解聚合物纳米复合材料用于骨组织工程

Development of a tricomponent composite graphene oxide-chitosan-hydroxyapatite for bone tissue engineering

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