开发了在富氧Fe(acac),络合物体系中膨化氧化石墨制取氧化石墨烯/Fe2O3复合物的一步法.应用FT-IR、XRD、VSM、AFM及低温直流电导测量法对所制氧化石墨/Fe2O3复合物进行表征.FT-IR研究结果显示:膨化后,氧化石墨的环氧基团分解,同时形成了氧化铁粒子与氧化石墨烯复合物.AFM测试表明:在较高Fe2O3含量下,氧化石墨烯片层结构剥蚀形成厚达5 mm氧化石墨烯叠层.VSM研究显示:在室温和0.13 emu/g~5.5 emu/g范围内,全部复合物呈铁磁特性.这些复合物的导电性受控于准电子跃迁机制.
A single step method was developed for the preparation of graphene oxide/Fe2O3 composites by exfoliation of graphite oxide with an oxygen-rich ferric acetyl acetonate complex. The synthesized materials were characterized by Fourier transform infrared spectroscopy, X-ray diffraction, vibrating sample magnetometry, atomic force microscopy, and low temperature de conductivity measurements. After exfoliation, the Fourier transform infrared studies reveal the decomposition of epoxy groups and the simultaneous formation of composites of iron oxide particles within the graphene oxide. Atomic force microscopy reveals the formation of an~5nm thick graphene oxide stack with layered morphology. The layered morphology of graphene oxide degrades at higher concentrations of iron oxide. The vibrating sample magne-tometer studies show ferromagnetic behavior of all composites in the range of 0.13-5.5emu/g at room temperature. The conductivity of these composites is found to be governed by a quasi 1D hopping mechanism.
参考文献
[1] | Novoselov K S;C-elm A K;Morozov S V et al.Electric field effect in atomically thin carbon films[J].Science,2004,306:666-669. |
[2] | K. S. Novoselov;D. Jiang;F. Schedin;T. J. Booth;V. V. Khotkevich;S. V. Morozov;A. K. Geim .Two-dimensional atomic crystals[J].Proceedings of the National Academy of Sciences of the United States of America,2005(30):10451-10453. |
[3] | Berger, C;Song, ZM;Li, XB;Wu, XS;Brown, N;Naud, C;Mayo, D;Li, TB;Hass, J;Marchenkov, AN .Electronic confinement and coherence in patterned epitaxial graphene[J].Science,2006(5777):1191-1196. |
[4] | Nakada K;Fujita M;Dresselhaus G et al.Edge state in graphene ribbons:Nanometer size effect and edge shape dependence[J].Physical Review B,1996,54:17954-17961. |
[5] | Novoselov K S;Geim A K;Morozov S et al.Two-dimensional gas of massless Dirac fermions in graphene[J].Nature,2005,438:197-200. |
[6] | Zhang Y;Yan-Wen T;Stormer H L et al.Experimental observation of the quantum Hall effect and Berry "s phase in graphene[J].Nature,2005,438:201-204. |
[7] | He H;Klinowski J;Forster M et al.A new structure model for graphite oxide[J].Chemical Physics Letters,1998,287:53-56. |
[8] | Stankovich S;Dikin DA;Dommett GHB;Kohlhaas KM;Zimney EJ;Stach EA;Piner RD;Nguyen ST;Ruoff RS .Graphene-based composite materials[J].Nature,2006(7100):282-286. |
[9] | Weifeng Zhao;Haiquan Wang;Haitao Tang .Facile preparation of epoxy-based composite with oriented graphite nanosheets[J].Polymer: The International Journal for the Science and Technology of Polymers,2006(26):8401-8405. |
[10] | Claire Berger;Zhimin Sonnnnng;Tianbo Li;Xuebin Li;Asmerom y.oGBAZGHI;Rui Feng;Zhenting Dai;Alexei N.Marchenkov;Edward H.Conrad;Philip N.First;Walt A.de Heer .Ultrathin Epitaxial Graphite:2D Electron Gas Properties and a Route toward Graphene-based Nanoelectronics[J].The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical,2004(52):19912-19916. |
[11] | Ishigami M;Chen JH;Cullen WG;Fuhrer MS;Williams ED .Atomic structure of graphene on SiO2[J].Nano letters,2007(6):1643-1648. |
[12] | Wengui Weng;Guohua Chen;Dajun Wu .Transport properties of electrically conducting nylon 6/foliated graphite nanocomposites[J].Polymer: The International Journal for the Science and Technology of Polymers,2005(16):6250-6257. |
[13] | Lee H Y;Lee S M .Graphite FeSi alloy composites as anode materials for rechargeable lithium batteries[J].Journal of Power Sources,2002,112:649-654. |
[14] | Wenge Zheng;Shing-Chung Wong .Electrical conductivity and dielectric properties of PMMA/expanded graphite composites[J].Composites science and technology,2003(2):225-235. |
[15] | Zunli Mo;Yinxia Sun;Hong Chen;Ping Zhang;Dandan Zuo .Preparation and characterization of a PMMA/Ce(OH)_3,Pr_2O_3/graphite nanosheet composite[J].Polymer: The International Journal for the Science and Technology of Polymers,2005(26):12670-12676. |
[16] | Brodie B C .On the Atomic Weight of Graphite[J].Philos Trans Royal Soc of London,1886,149:249-259. |
[17] | Park J H;Ko J M;Park O O et al.Capacitance properties of graphite/polypyrrole composite electrode prepared by chemical polymerization of pyrrole on graphite fiber[J].Journal of Power Sources,2002,105(01):20-25. |
[18] | Xiao M.;Sun LY.;Liu JJ.;Li Y.;Gong KC. .Synthesis and properties of polystyrene/graphite nanocomposites[J].Polymer: The International Journal for the Science and Technology of Polymers,2002(8):2245-2248. |
[19] | Guo-Hua Chen;Da-Jun Wu;Wen-Gui Weng;Bin He;Wen-li Yan .Preparation of polystyrene-graphite conducting nanocomposites via intercalation polymerization[J].Polymer international,2001(9):980-985. |
[20] | Quivy A;Deltour R;Jansen A G M et al.Transport phenomena in polymer-graphite composite materials[J].Physical Review B,1989,39:1026-1030. |
[21] | Rohatgi P K;Ray S;Liu Y .Tribological properties of metal matrix-graphite particle composites[J].Int Mater Rev (USA),1992,37:129-149. |
[22] | Hummer W S Jr;Offeman R E.Preparation of graphitic oxide[J].Journal of the Chemical Society,1958:1339. |
[23] | Mermoux M;Chabre Y;Rousseau A .FT-IR and 13C NMR study of graphite oxide[J].CARBON,1991,29:469-474. |
[24] | Ristic M;Popovic S;Tonkovic M et al.Chemical and structural properties of the system Fe2O3-In2O3[J].Journal of Materials Science,1991,26:4225-4233. |
[25] | Josyulu O S;Sobhnadari J .The far-infrarod spectra of some mixed cobalt zinc and magnesium zinc ferrites[J].Plays Slat Solidi (a),1981,65:479-483. |
[26] | Eibshutz M;Gorodetsky G;Shtrikman S et al.Differential thermal analysis and mossbauer studies in rare-earth orthoferrites[J].Journal of Applied Physics,1964,35:1071. |
[27] | Silverstein R M;Webster F X.Spectometric Identification of Organic Compounds[M].John Wiley and Sons,Inc,1998:75-76. |
[28] | Wang Y Z;Joo J;Hsu C H et al.Charge transport of hydrochloric acid doped polyaniline and poly(o-toluidine) fibers:role of processing[J].Macromolecules,1994,27:5871-5876. |
[29] | M. Bruzzi;P. Piseri;S. Miglio;G. Bongiorno;E. Barborini;C. Ducati;J. Robertson;P. Milani .Electrical conduction in nanostructured carbon and carbon-metal films grown by supersonic cluster beam deposition[J].The European physical journal, B. Condensed matter physics,2003(1):3-13. |
[30] | Martin I;Blanter Ya M.Transport in disordered graphene nanoribbons[J].Phys Rev Lett arXiv:0705.0532. |
[31] | Athanassiou EK;Mensing C;Stark WJ .Insulator coated metal nanoparticles with a core/shell geometry exhibit a temperature sensitivity similar to advanced spinels[J].Sensors and Actuators, A. Physical,2007(1):120-129. |
[32] | Dresselhaus MS.;Dresselhaus G. .Intercalation compounds of graphite[J].Advances in physics,2002(1):1-186. |
[33] | Boehm Harms-Peter;Setton R;Stumpp E .Nomenclature and terminology of graphite intercalation compounds[J].Pure and Applied Chemistry,1994,66:1893-1901. |
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