| [1] | 孟华.纳米氧化锌的抗菌性及其抗菌机理讨论[J].工业技术,2014,9:184-187. MENG H. Discussion on antibacterial and mechanism of nanometer ZnO[J]. Industrial Technology, 2014 , 9:184-187(in Chinese). |
| [2] | 马建中,惠爱平,刘俊莉.纳米ZnO抗菌材料的研究进展[J].材料导报,2014,24:24001-24007. MA J Z, HUI A P, LIU J L. Advance in research on ZnO nano-antibacterial materials[J]. Materials Review, 2014 , 24:24001-24007(in Chinese). |
| [3] | LI J H, HONG R Y, LI M Y. Effects of ZnO nanoparticles on the mechanical and antibacterial properties of polyurethane coatings[J]. Progress in Organic Coatings, 2009, 64:504-509. |
| [4] | NICOLE J, BINATA R, KOODALI R. Antibacterial activity of ZnO nanoparticle suspensions on a broad spectrum of microorganisms[J]. FEMS Microbiol Lett, 2008, 56:71-76. |
| [5] | TANG E J, DONG SHI Y. Preparation of styrene polymer/ZnO nanocomposite latex via miniemulsion polymerization and its antibacterial property[J]. Colloid Polym Sci, 2009, 287:1025-1032. |
| [6] | 况慧娟,杨林,许恒毅.纳米氧化锌抗菌性能及机制的研究进展[J].中国药理学与毒理学杂志,2015,29(1):153-157. KUANG H J, YANG L, XU H Y. Advance in research on antibacterial properties and mechanism of zinc oxide[J]. Chinese Journal of Pharmacology and Toxicology, 2015, 29(1):153-157(in Chinese). |
| [7] | 段月琴,孙永昌,王玉红.纳米复合抗菌面料的研制及其抗菌性能[J].天津冶金,2005,1:44-45. DUAN Y T, SUN Y C, WANG Y H. Preparation and antibacterial properties of antibacterial nano-composite fabrics[J]. Tianjin Metallurgy, 2005 , 1:44-45(in Chinese). |
| [8] | MANJULA G, NIRMALA M, REKHA K. Structural, optical, photo catalytic and antibacterial activity of ZnO and Co doped ZnO nanoparticles[J]. Materials Letters, 2011,(65):1797-1800. |
| [9] | BOUVYA C, MARINE W, SPORKENC R, et al. Nanosized ZnO confined inside a Faujasite X zeolite matrix:Characterization and optical properties[J]. Colloids and Surfaces A:Physicochem, 2007, 300:145-149. |
| [10] | SHEN X Y, MU D B, ChEN S, et al. Enhanced electrochemical performance of ZnO-loaded/porous carbon composite as anode materials for lithium ion batteries[J]. Applied Materials & Interfaces, 2013,(5):3118-3125. |
| [11] | COPCIA V E, GRADINARU R, MIHAI G D, et al. Antibacterial activity of nanosized ZnO hosted in microporous clinoptilolite and mesoporous silica SBA-15 matrices[J]. Revista De Chimie, 2012, 63(11):1124-1131. |
| [12] | HE G Y, DAI W,ZHAO Y T, et al. A facile synthesis of Ag@graphene-nanosheet composite with enhanced antibacterial activity and acceptable environmental safety[J]. Monatsh Chem, 2014,(145):3-10. |
| [13] | 柳劲松,李涛.石墨烯/氧化锌复合材料超级电容电化学性能研究[J].电站系统工程,2015,31(4):45-48. LIU J S, LI T. Study on electrochemical properties of graphene/zinc oxide composites[J]. Power System Engineering, 2015, 31(4):45-48(in Chinese). |
| [14] | GEIM A K, NOVOSELOV K S. The rise of graphene[J]. Nature Materials, 2007, 6(3):183-191. |
| [15] | CHEN H Q, MⅡLLER M B, GILMORE K J, et al. Mechanically strong, electrically conductive, and biocompatible graphene paper[J]. Advanced Materials, 2008, 20(18):3557-3561. |
| [16] | PARK S, MOHANTY N, SUK J W, et al. Biocompatible, robust freestanding paper composed of a Tween/graphene composite[J]. Advanced Materials, 2010, 22(15):1736-1740. |
| [17] | ZHU Y W, MURALI S, CAI W W, et al. Graphene and graphene oxide:synthesis, properties, and applications[J]. Advanced Materials, 2010, 22(35):3906-3924. |
| [18] | SI Y, SAMULSKI E T.Synthesis of water soluble graphene[J]. Nano Letters, 2008, 8(6):1679-1682. |
| [19] | XU C, WANG X, ZHU J W. Graphene-metal particle nanocomposites[J]. J Phys Chem, 2008, 112(50):19841-19845. |
| [20] | Mao H H, Liu X T, Yang J H, et al. Synthesis of magnetic FexOy@silica-pillared clay(SPC) composites via a novel sol-gel route for controlled drug release and targeting[J]. Materials Science and Engineering C, 2014, 40:102-108. |
| [21] | YUAN J J, ZHU J W, BI H P, et al. Graphene-based 3D composite hydrogel by anchoring Co3O4 nanoparticles with enhanced electrochemical properties[J]. Physical Chemisrty Chemical Physics, 2013, 15:12940-12945. |
| [22] | XIAO F X. Construction of highly ordered ZnO-TiO2 nanotube arrays (ZnO/TNTs) heterostructure for photocatalytic application[J]. ACS Applied Materials & Interfaces, 2012, 4:7055-7063. |
| [23] | ZHANG L L, JIANG Y H, DING Y L. Investigation into the antibacterial behaviour of suspensions of ZnO nanoparticles (ZnO nanofluids)[J]. Journal of Nanoparticle Research, 2007, 9(18):479-489. |
| [24] | PARK S, RUOFF R S. Chemical methods for the production of graphenes[J]. Nature Nanotechnology, 2009, 4(4):217-224. |
| [25] | KHAYATIANA S A, AHMAD K, NASSER S, et al. Preparation and characterization of Al doped ZnO NPs/graphene nanocomposites synthesized by a facile one-step solvothermal method[J]. Ceramics International, 2016, 42:110-115. |
| [26] | 王斌,张莉,郭志华,等.石墨烯/银纳米复合材料的制备及抗菌性能的研究[J].稀有金属材料与工程,2015,44(1):169-173. WANG B,ZHANG L,GUO Z H, et al. Synthesis of graphene/Ag nancomposites and their antimicrobial properties[J]. Rare Metal Materials and Engineering, 2015,44(1):169-173(in Chinese). |
| [27] | 孙婷婷,蒋澄宇.纳米氧化铜导致小鼠急性肺损伤[J].基础医学与临床,2012,33(4):386-389. SUN T T, JIANG C Y. Copper oxide nanoparticles induce acute pulmonary injury in mice[J].Basic & Clinical Medicine, 2012,33(4):386-389(in Chinese). |
| [28] | YAMAMOTO A, HONMA R, SUMITA M, et al. Cytotoxicity evaluation of ceramic particles of different sizes and shapes[J]. Journal of Biomedical Materials Research Part A, 2004, 68(2):244-256. |
| [29] | NEL A, XIA T, MÄDLER L, et al. toxic Potential of Materials at the Nanolevel[J]. Science, 2006, 311(5761):622-627. |
| [30] | 陈安伟,曾光明,陈桂秋,等.金属纳米材料的生物毒性效应研究进展[J].环境化学,2014,33(4):568-575. CHEN A W, ZENG G M CHEN G Q, et al. Advance in research on toxicity of metal nanomaterials[J]. Environmental Chemistry, 2014, 33(4):568-575(in Chinese). |
| [31] | OLTEANUA D, FILIP A, SOCACIB C, et al. Cytotoxicity assessment of graphene-based nanomaterials on human dental follicle stem cells[J]. Colloids and Surfaces B:Biointerfaces, 2015, 136:791-798. |