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参考文献

[1] 王书传,李小平.石墨烯粉体在环氧锌粉底漆中的应用研究探索[J].中国涂料,2017,32(2):32-35,69.

[2] 白晋涛,王惠. 石墨烯粉体材料的规模化制备技术及石墨烯基高储能电极材料的开发[J]. 中国科技成果,2019(1):11.

[3] 刘忍肖,徐鹏,田国兰,等.石墨烯粉体材料的标准化测试方法研究[J].中国标准化,2019(S1):29-34,56.

[4] 田国兰,陈岚,刘忍肖,等. X射线荧光光谱测定石墨烯粉体中的杂质元素[J]. 分析测试技术与仪器,2019,25(3):160-169.

[5] 何延如,田小让,赵冠超,等.石墨烯薄膜的制备方法及应用研究进展[J].材料导报,2020,34(5):5048-5060,5077.

[6] 王肖沐,肖宇彬,许建斌. 扫描探针显微镜在石墨烯研究中的应用[J]. 电子显微学报,2012,31(1):74-86.

[7] 黄宛真,杨倩,叶晓丹,等. 石墨烯层数的表征[J]. 材料导报,2012,26(7):26-30.

[8] 丁荣,郭喜涛,严春伟,等.一种石墨烯纳米材料汽车面漆的制备方法:CN103059636A[P]. 2013-04-24.

[9] Das S,Pati F,Choi Y J,et al. Bioprintable,cell-laden silk fibroin-gelatin hydrogel supporting multilineage differentiation of stem cells for fabrication of three-dimensional tissue constructs[J]. Acta Biomaterialia,2015,11:233-246.

[10] Guo H L,Wang X F,Qian Q Y,et al. A green approach to the synthesis of graphene nanosheets[J]. ACS Nano,2009,3(9):2653-2659.

[11] Stolyarova E,Rim K T,Ryu S,et al. High-resolution scanning tunneling microscopy imaging of mesoscopic graphene sheets on an insulating surface[J]. Proceedings of the National Academy of Sciences of the United States of America,2007,104(22):9209-9212.

[12] Nana-Sinkam S P,Croce C M. MicroRNAs as therapeutic targets in cancer[J]. Translational Research,2011,157(4):216-225.

[13] Chaiworapongsa T,Romero R,Gotsch F,et al. Low maternal concentrations of soluble vascular endothelial growth factor receptor-2 in preeclampsia and small for gestational age[J]. The Journal of Maternal-Fetal & Neonatal Medicine,2008,21(1):41-52.

[14] Kamiya Y,Yamazaki K,Ogino T. Protein adsorption to graphene surfaces controlled by chemical modification of the substrate surfaces[J]. Journal of Colloid and Interface Science,2014,431:77-81.

[15] Maekawa Y,Sasaoka K,Yamamoto T. Prediction of the infrared spectrum of water on graphene substrate using hybrid classical/quantum simulation[J]. Japanese Journal of Applied Physics,2019,58(6):068008.

[16] Apinyan V, T K. Ultraviolet absorption spectrum of the half-filled bilayer graphene[J]. Superlattices and Microstructures, 2018, 119:166-180.

[17] Speck F, Ostler M, Röhrl J, et al. Atomic layer deposited aluminum oxide films on graphite and graphene studied by XPS and AFM[J]. Physica Status Solidi C, 2010, 7(2):398-401.

[18] Lu N,Huang Y,Li H B,et al. First principles nuclear magnetic resonance signatures of graphene oxide[J]. The Journal of Chemical Physics,2010,133(3):034502.

[19] Kalbac M,Reina-Cecco A,Farhat H,et al. The influence of strong electron and hole doping on the Raman intensity of chemical vapor-deposition graphene[J]. ACS Nano,2010,4(10):6055-6063.

[20] Kalbac M,Reina-Cecco A,Farhat H,et al. The influence of strong electron and hole doping on the Raman intensity of chemical vapor-deposition graphene[J]. ACS Nano,2010,4(10):6055-6063.

[21] Malard L M,Pimenta M A,Dresselhaus G,et al. Raman spectroscopy in graphene[J]. Physics Reports,2009,473(5-6):51-87.

[22] Stankovich S,Dikin D A,Dommett G H B,et al. Graphene-based composite materials[J]. Nature,2006,442(7100):282-286.

[23] Carotenuto G,Altamura D,Giannini C,et al. XRD characterization of bulk graphene-based material[J]. Acta Crystallographica,2011,67(a1):C558.

[24] 褚伍波,代文,吕乐,等. 无烟煤伴生石墨制备类石墨烯/环氧树脂复合材料及其导热性能研究[J]. 化工新型材料,2019,47(7):68-72.

[25] Rasheed A K,Khalid M,Walvekar R,et al. Study of graphene nanolubricant using thermogravimetric analysis[J]. Journal of Materials Research,2016,31(13):1939-1946.

[26] Marcano D C,Kosynkin D V,Berlin J M,et al. Improved synthesis of graphene oxide[J]. ACS Nano,2010,4(8):4806-4814.

[27] 杨旭宇,王贤保,李静,等. 氧化石墨烯的可控还原及结构表征[J]. 高等学校化学学报,2012,33(9):1902-1907.

[28] Zang X H,Chang Q Y,Liang W Q,et al. Cyclodextrin-functionalized magnetic graphene as solid-phase extraction absorbent coupled with flame atomic absorption spectrophotometry for determination of cadmium in water and food samples[J]. Spectroscopy Letters,2017,50(9):507-514.

[29] Wei D C,Liu Y Q,Wang Y,et al. Synthesis of N-doped graphene by chemical vapor deposition and its electrical properties[J]. Nano Letters,2009,9(5):1752-1758.

[30] Petrone N,Dean C R,Meric I,et al. Chemical vapor deposition-derived graphene with electrical performance of exfoliated graphene[J]. Nano Letters,2012,12(6):2751-2756.

[31] 邓凌峰,彭辉艳,覃昱焜,等. 碳纳米管与石墨烯协同改性天然石墨及其电化学性能[J]. 材料工程,2017,45(4):121-127.

[32] Balandin A A,Ghosh S,Bao W Z,et al. Superior thermal conductivity of single-layer graphene[J]. Nano Letters,2008,8(3):902-907.

[33] Lee C,Wei X D,Kysar J W,et al. Measurement of the elastic properties and intrinsic strength of monolayer graphene[J]. Science,2008,321(5887):385-388.

[34] Loh K P,Bao Q L,Ang P K,et al. The chemistry of graphene[J]. Journal of Materials Chemistry,2010,20(12):2277-2289.

[35] Li D, Kaner R B. Materials science. Graphene-based materials[J]. Science, 2008, 320(5880):1170-1171.

[36] Ritter K A,Lyding J W. The influence of edge structure on the electronic properties of graphene quantum dots and nanoribbons[J]. Nature Materials,2009,8(3):235-242.

[37] Hu W B,Peng C,Luo W J,et al. Graphene-based antibacterial paper[J]. ACS Nano,2010,4(7):4317-4323.

[38] Avouris P. Graphene:electronic and photonic properties and devices[J]. Nano Letters,2010,10(11):4285-4294.

[39] Tung V C,Allen M J,Yang Y,et al. High-throughput solution processing of large-scale graphene[J]. Nature Nanotechnology,2009,4(1):25-29.

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