化学还原法被认为是实现大规模生产石墨烯的主要途径之一,而剥离氧化石墨为氧化石墨烯是获得高品质石墨烯的关键步骤。采用交变电场剥离氧化石墨,研究了电压U、频率f和电极间距d对剥离结果的影响。结果表明氧化石墨烯的厚度和横向尺寸随着电压的增大而减小,随着频率的增大而增大;在电压能满足剥离效果的前提下,随着电极间距的增大,氧化石墨烯的厚度和横向尺寸呈减小趋势。
Chemical reduction of exfoliated graphite oxide has been considered as one attractive potential ap- proach for large-scale production of graphene nanosheets, and its exfoliation step has a major influence on the quality of product. In this paper, alternating electric field was used to exfoliate graphite oxide into graphene ox- ide nanosheets. The result shows that the thickness and lateral size of the graphene oxide nanosheets decrease with increasing voltage, but increase with increasing frequency. If the voltage can satisfied the exfoliation of graphite oxide, the thickness and lateral size of the graphene oxide nanosheets decrease when distance between two graphite electrodes enlarged.
参考文献
| [1] | Novoselov K S;Geim A K et al.Electric field effect in atomically thin carbon films[J].Science,2004,306(5696):666-669. |
| [2] | Jang BZ;Zhamu A .Processing of nanographene platelets (NGPs) and NGP nanocomposites: a review[J].Journal of Materials Science,2008(15):5092-5101. |
| [3] | Chemically Derived Graphene Oxide: Towards Large-Area Thin-Film Electronics and Optoelectronics[J].Advanced Materials,2010(22):2392-2415. |
| [4] | Savage N.Researchers unzip carbon nanotubes to make ribbons of graphene: a new route to the narrow graphene ribbons needed in electronics[J].IEEE Spectrum,2009 |
| [5] | Scott Gilje;Song Han;Minsheng Wang .A Chemical Route to Graphene for Device Applications[J].Nano letters,2007(11):3394-3398. |
| [6] | Sasha Stankovich;Dmitriy A. Dikin;Richard D. Piner .Synthesis of graphene-based nanosheets via chemical reduction of exfoliated graphite oxide[J].Carbon: An International Journal Sponsored by the American Carbon Society,2007(7):1558-1565. |
| [7] | Kyle A. Ritter;Joseph W. Lyding .The influence of edge structure on the electronic properties of graphene quantum dots and nanoribbons[J].Nature materials,2009(3):235-242. |
| [8] | Partoens B;Peeters FM .From graphene to graphite: Electronic structure around the K point[J].Physical review, B. Condensed matter and materials physics,2006(7):5404-1-5404-11-0. |
| [9] | Guo, H.-L.;Wang, X.-F.;Qian, Q.-Y.;Wang, F.-B.;Xia, X.-H. .A green approach to the synthesis of graphene nanosheets[J].ACS nano,2009(9):2653-2659. |
| [10] | Hannes L;Schniepp C;Michael J et al.Functionalized single graphene sheets derived from splitting graphite oxid[J].Journal of Physical Chemistry B,2006,110(17):8535-8539. |
| [11] | Dan Li M B M;Gijie S;Richard B et al.Processable aqueous dispersions of graphene nanosheets[J].Nat Nano,2007,3:101-105. |
| [12] | Na Liu;Fang Luo;Haoxi Wu;Yinghui Liu;Chao Zhang;Ji Chen .One-Step Ionic-Liquid-Assisted Electrochemical Synthesis of Ionic-Liquid-Functionalized Graphene Sheets Directly from Graphite[J].Advanced functional materials,2008(10):1518-1525. |
| [13] | Su Chingyuan;Lu Angyu;Xu Yanping et al.High- quility thin graphene films from fast electrochemical ex- foliation[J].ACS Nano,2011,5(03):2332-2339. |
| [14] | Hummers W S;O F feman R E .Preparation of graphit- ic oxide[J].Journal of the American Chemical Society,1958,80:1339. |
| [15] | Sung J A;Ztiu Y W;Lee S H et al.Thin film fabrica- tion and simultaneous anodic reduction of deposited gra- phene oxide platelets by electrophoretic depositon[J].J Phys Chem Lett,2010,1:1259-1263. |
| [16] | Hasan, S.A.;Rigueur, J.L.;Harl, R.R.;Krejci, A.J.;Gonzalo-Juan, I.;Rogers, B.R.;Dickerson, J.H. .Transferable graphene oxide films with tunable microstructures[J].ACS nano,2010(12):7367-7372. |
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