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- 2017
氧化石墨烯/聚乙二醇复合材料在人工关节材料上的润滑性能
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Abstract:
| [1] | BRUCEJ, WALMSLEY R. Replacement of the semilunar cartilages of the knee after operative excision[J]. British Journal of Surgery, 1937, 25(97):17-28. |
| [2] | MORO T, TAKATORI Y, ISHIHARA K, et al. Surface grafting of artificial joints with a biocompatible polymer for preventing periprosthetic osteolysis[J]. Nature Materials, 2004, 3(11):829-836. |
| [3] | BRACCO P, ORAL E. Vitamin E-stabilized UHMWPE for total joint implants:A review[J]. Clinical Orthopaedics and Related Research, 2011, 469(8):2286-2293. |
| [4] | HUO M H, BETTS F, BOGUMILL G P, et al. Metallic wear debris in acetabular osteolysis in a mechanically stable cementless total hip replacement:Report of a case[J]. Orthopedics, 1993, 16(11):1277-1281. |
| [5] | VANGOLU Y, ARSLAN E, TOTIK Y, et al. Optimization of the coating parameters for micro-arc oxidation of CP-Ti[J]. Surface and Coatings Technology, 2010, 205(6):1764-1773. |
| [6] | NAIRL S, LAURENCIN C T. Biodegradable polymers as biomaterials[J]. Progress in Polymer Science, 2007, 32(8-9):762-798. |
| [7] | HE H, KLINOWSKI J, FORSTER M, et al. A new structural model for graphite oxide[J]. Chemical Physics Letters, 1998, 287(1-2):53-56. |
| [8] | SHIN S R, AGHAEI-GHAREH-BOLAGH B, DANG T T, et al. Cell-laden microengineered and mechanically tunable hybrid hydrogels of gelatin and grapheme oxide[J]. Advanced Materials, 2013, 25(44):6385-6391. |
| [9] | LU J, HE Y S, CHENG C, et al. Self-supporting graphene hydrogel film as an experimental platform to evaluate the potential of graphene for bone regeneration[J]. Advanced Functional Materials, 2013, 23(28):3494-3502. |
| [10] | PUTZ K W, COMPTONO C, PALMERI M J, et al. High-nanofiller-content graphene oxide-polymer nanocomposites via vacuum-assisted self-assembly[J]. Advanced Functional Materials, 2010, 20(19):3322-3329. |
| [11] | 张树鹏. 聚乙二醇/功能化石墨烯层状纳米复合材料热稳定性的提高[J]. 化学学报, 2012, 70(12):1394-1400. ZHANG S P. Layer-aligned polyethylene glycol/functionalized graphene composites with improved thermal stability[J]. Acta Chimica Sinica, 2012, 70(12):1394-1400(in Chinese). |
| [12] | KOBAYASHIA M, KOIDEA T, HYON S H. Tribological characteristics of polyethylene glycol (PEG) as a lubricant for wear resistance of ultra-high-molecular-weight polyethylene (UHMWPE) in artificial knee join[J]. Journal of the Mechanical Behavior of Biomedical Materials, 2014, 38:33-38. |
| [13] | 任芳, 朱光明, 任鹏刚. 纳米石墨烯复合材料的制备及应用研究进展[J]. 复合材料学报, 2014, 31(2):263-272. REN F, ZHU G M, REN P G. The latest advances in preparation and application of nanographene composites[J]. Acta Materiae Compositae Sinica, 2014, 31(2):263-272(in Chinese). |
| [14] | HUMMERSW S, OFFEMAN R E. Preparation of graphitic oxide[J]. Journal of American Chemical Society, 1958, 80(6):1339. |
| [15] | KOVTYUKHOVA N I, OLLIVIER P J, MARTIN B R, et al. Layer-by-layer assembly of ultrathin composite films from micron-sized graphite oxide sheets and polycations[J]. Chemistry of Materials, 1999, 11(3):771-778. |
| [16] | 范艳煌, 邹正光, 龙飞, 等. 以氧化石墨烯为氧化介质制备石墨烯/聚苯胺导电复合材料[J]. 复合材料学报, 2013, 30(1):27-31. FAN Y H, ZOU Z G, LONG F, et al. Preparation of graphene/polyaniline conducting composite by graphene oxide for oxidant[J]. Acta Materiae Compositae Sinica, 2013, 30(1):27-31(in Chinese). |
| [17] | 李拥虎. 氧化石墨烯/壳聚糖复合材料的制备及其载药性能研究[D]. 成都:西南交通大学, 2013. LI Y H. Preparation of graphene oxide/chitosan composite materials and the propertied properties of drug controlled release[D]. Chengdu:Southwest Jiaotong University, 2013(in Chinese). |
| [18] | CORRIGAN D O, HEALYA M, CORRIGAN O I. The effect of spray drying solutions of polyethylene glycol (PEG) and lactose/PEG on their physicochemical properties[J]. International Journal Pharmaceutics, 2002, 235(1-2):193-205. |
| [19] | 郭振福. CuCl2对聚乙二醇(PEG)构象和结晶行为的影响[J]. 化学学报, 2009, 67(23):2755-2758. GUO Z F. Effect of CuCl2 on the conformation and crystallization behavior of PEG[J]. Acta Chimica Sinica, 2009, 67(23):2755-2758(in Chinese). |
| [20] | DREYER D R, PARK S, BIELAWSKI C W, et al. The chemistry of graphene oxide[J]. Chemical Society Reviews, 2010, 39(1):228-240. |
| [21] | GONG J P. Friction and lubrication of hydrogels:Itsrichness and complexity[J]. ChemInform, 2006, 37(41):544-552. |
| [22] | MORO T, KAWAGUCHI H, ISHIHARA K, et al. Wear resistanceof artificial hip joints with poly (2-methacryloyloxyethylphosphorylcholine) grafted polyethylene:Comparisons with the effect of polyethylene cross-linking and ceramic femoral heads[J]. Biomaterials, 2009, 30(16):2995-3001. |
| [23] | KYOMOTOM, MORO T, TAKATORI Y, et al. Multidirectional wear and impact-to-wear tests of phospholipid-polymer-grafted and vitamin E-blended crosslinkedpolyethylene:A pilot study[J]. Clinical Orthopaedics and Related Research, 2015, 473(3):942-951. |
| [24] | SUBRAHMANYAM K S, VIVEKCHAND S R C, GOVINDARAJ A, et al. A study of graphenes prepared by different methods:Characterization, properties and solubilization[J]. Journal of Materials Chemistry, 2008, 18(13):1517-1523. |
| [25] | FERRARI A C, MEYER J C, SCARDACI V, et al. Raman spectrum of graphene and graphenelayers[J]. Physical Review Letters, 2006, 97(18):187401. |
