石墨烯及其衍生物作为二维碳纳米材料可以有效地结合金属、半导体纳米粒子,同时,石墨烯及其衍生物与有机功能分子之间也可以通过共价或以π-π、静电等非共价形式发生相互作用.简述了石墨烯纳米复合材料的基本结构、制备策略、电子储存与转移以及能量传递特性,讨论了石墨烯纳米复合材料在光、电催化、电化学太阳能电池等领域中的研究应用进展.
参考文献
| [1] | Yan, X.;Cui, X.;Li, L.-S. .Synthesis of large, stable colloidal graphene quantum dots with tunable size[J].Journal of the American Chemical Society,2010(17):5944-5945. |
| [2] | Li L S;Yan X .Colloidal graphene quantum dots[J].J Phys Chem Lett,2010,1:2572. |
| [3] | Prezhdo O V;Kamat P V;Schatz G C .Virtual issue:Graphene and functionalized graphene[J].Journal of Physical Chemistry C,2011,115:3195. |
| [4] | Virendra Singh;Daeha Joung;Lei Zhai;Soumen Das;Saiful I. Khondaker;Sudipta Seal .Graphene based materials: Past, present and future[J].Progress in materials science,2011(8):1178-1271. |
| [5] | Prashant V Kamat .Graphene-based nanoassemblies for energy conversion[J].J Phys Chem Lett,2011,2:242. |
| [6] | Muszynski R;Seger B;Kamat PV .Decorating graphene sheets with gold nanoparticles[J].The journal of physical chemistry, C. Nanomaterials and interfaces,2008(14):5263-5266. |
| [7] | Cassagneau, Thierry;Fendler, Janos H. .Preparation and layer-by-layer self-assembly of silver nanoparticles capped by graphite oxide nanosheets[J].The journal of physical chemistry. B, Materials, Surfaces, Interfaces & Biophysical,1999(11):1789-1793. |
| [8] | Kotov N A;Dekany I;Fendler J H .Ultrathin graphite oxide-polyelectrolyte composites prepared by self-assembly:Transition between conductive and non-conductive states[J].Advanced Materials,1996,8:637. |
| [9] | Kamat P V .Graphene based nanoarchitectures anchoring semiconductor and metal nanoparticles on a 2-dimensional carbon support[J].J Phys Chem Lett,2010,1:520. |
| [10] | Das A;Pisana S;Chakraborty B;Piscanec S;Saha SK;Waghmare UV;Novoselov KS;Krishnamurthy HR;Geim AK;Ferrari AC .Monitoring dopants by Raman scattering in an electrochemically top-gated graphene transistor[J].Nature nanotechnology,2008(4):210-215. |
| [11] | Geng J;Jung H T .Porphyrin functionalized graphene sheets in aqueous suspensions:From the preparation of graphene sheets to highly conductive graphene films[J].Journal of Physical Chemistry C,2010,114:8227. |
| [12] | Xu, YX;Bai, H;Lu, GW;Li, C;Shi, GQ .Flexible graphene films via the filtration of water-soluble noncovalent functionalized graphene sheets[J].Journal of the American Chemical Society,2008(18):5856-5857. |
| [13] | Xie, LM;Ling, X;Fang, Y;Zhang, J;Liu, ZF .Graphene as a Substrate To Suppress Fluorescence in Resonance Raman Spectroscopy[J].Journal of the American Chemical Society,2009(29):9890-9891. |
| [14] | Ling, X;Xie, LM;Fang, Y;Xu, H;Zhang, HL;Kong, J;Dresselhaus, MS;Zhang, J;Liu, ZF .Can Graphene be used as a Substrate for Raman Enhancement?[J].Nano letters,2010(2):553-561. |
| [15] | Treossi, E;Melucci, M;Liscio, A;Gazzano, M;Samori, P;Palermo, V .High-Contrast Visualization of Graphene Oxide on Dye-Sensitized Glass, Quartz, and Silicon by Fluorescence Quenching[J].Journal of the American Chemical Society,2009(43):15576:1-15576:4. |
| [16] | Wang, S.;Goh, B.M.;Manga, K.K.;Bao, Q.;Yang, P.;Loh, K.P. .Graphene as atomic template and structural scaffold in the synthesis of graphene-organic hybrid wire with photovoltaic properties[J].ACS nano,2010(10):6180-6186. |
| [17] | Chen, Z.;Berciaud, S.;Nuckolls, C.;Heinz, T.F.;Brus, L.E. .Energy transfer from individual semiconductor nanocrystals to graphene[J].ACS nano,2010(5):2964-2968. |
| [18] | Subramanian V;Wolf E E;Kamat P V .Green emission to probe photoinduced charging events in ZnO-Au nanoparticles.Charge distribution and Fermi-level equilibration[J].Journal of Physical Chemistry B,2003,107:7479. |
| [19] | Wojcik, A.;Kamat, P.V. .Reduced graphene oxide and porphyrin. An interactive affair in 2-D[J].ACS nano,2010(11):6697-6706. |
| [20] | Chunder A;Pal T;Khondaker S I et al.Reduced graphene oxide/copper phthalocyanine composite and its optoelectrical properties[J].Journal of Physical Chemistry C,2010,114:15129. |
| [21] | Li Y T;Sun X G;Li H W et al.Preparation of anatase TiO2 nanoparticles with high thermal stability and specific surface area by alcohothermal method[J].Powder Technology,2009,194:149. |
| [22] | Jiang, B.;Tian, C.;Zhou, W.;Wang, J.;Xie, Y.;Pan, Q.;Ren, Z.;Dong, Y.;Fu, D.;Han, J.;Fu, H. .In situ growth of TiO_2 in interlayers of expanded graphite for the fabrication of TiO_2-graphene with enhanced photocatalytic activity[J].Chemistry: A European journal,2011(30):8379-8387. |
| [23] | Lightcap, IV;Kosel, TH;Kamat, PV .Anchoring Semiconductor and Metal Nanoparticles on a Two-Dimensional Catalyst Mat. Storing and Shuttling Electrons with Reduced Graphene Oxide[J].Nano letters,2010(2):577-583. |
| [24] | Thuy-Duong Nguyen-Phan;Viet Hung Pham;Eun Woo Shin .The role of graphene oxide content on the adsorption-enhanced photocatalysis of titanium dioxide/graphene oxide composites[J].Chemical engineering journal,2011(1):226-232. |
| [25] | Gao B;Chen G Z;Puma G L .Carbon nanotubes/titanum dioxide (CNTs/TiO2) nanocomposites prepared by conventional and novel surfactant wrapping sol-gel methods exhibiting enhanced photocatalytic activity[J].Applied Catalysis B:Environmental,2009,89:503. |
| [26] | Zhang, L.L.;Xiong, Z.;Zhao, X.S. .Pillaring chemically exfoliated graphene oxide with carbon nanotubes for photocatalytic degradation of dyes under visible light irradiation[J].ACS nano,2010(11):7030-7036. |
| [27] | Park C.;Crowe A.;Gilbert TR.;Rodriguez NM.;Engel ES. .Use of carbon nanofibers in the removal of organic solvents from water[J].Langmuir: The ACS Journal of Surfaces and Colloids,2000(21):8050-8056. |
| [28] | Min S X;Lu G X .Dye-sensitized reduced graphene oxide photocatalysts for highly efficient visible-light-driven water reduction[J].Journal of Physical Chemistry C,2011,115:13938. |
| [29] | Xiong, Z.;Zhang, L.L.;Ma, J.;Zhao, X.S. .Photocatalytic degradation of dyes over graphene-gold nanocomposites under visible light irradiation[J].Chemical communications,2010(33):6099-6101. |
| [30] | Zhang, H.;Lv, X.;Li, Y.;Wang, Y.;Li, J. .P25-graphene composite as a high performance photocatalyst[J].ACS nano,2010(1):380-386. |
| [31] | Irnahori H;Umeyama T .Donor-aaceptor nanoarchitecture on semiconducting electrodes for solar energy conversion[J].Journal of Physical Chemistry C,2009,113:9029. |
| [32] | Ng Y H;Lightcap I V;Goodwin K et al.To what extent do graphene scaffolds improve the photovoltaic and photocatalytic response of TiO2 nanostructured films[J].J Phys Chem Lett,2010,1:2222. |
| [33] | Vinodgopal K;Hotchandani S;Kamat P V .Electrochemically assisted photocatalysis.TiO2 particulate film electrodes for photocatalytic degradation of 4-chlorophenol[J].Journal of Physical Chemistry,1993,97:9040. |
| [34] | Chang, HX;Lv, XJ;Zhang, H;Li, JH .Quantum dots sensitized graphene: In situ growth and application in photoelectrochemical cells[J].Electrochemistry communications,2010(3):483-487. |
| [35] | Yang, N.;Zhai, J.;Wang, D.;Chen, Y.;Jiang, L. .Two-dimensional graphene bridges enhanced photoinduced charge transport in dye-sensitized solar cells[J].ACS nano,2010(2):887-894. |
| [36] | Tang, Y.-B.;Lee, C.-S.;Xu, J.;Liu, Z.-T.;Chen, Z.-H.;He, Z.;Cao, Y.-L.;Yuan, G.;Song, H.;Chen, L.;Luo, L.;Cheng, H.-M.;Zhang, W.-J.;Bello, I.;Lee, S.-T. .Incorporation of graphenes in nanostructured TiO_2 films via molecular grafting for dye-sensitized solar cell application[J].ACS nano,2010(6):3482-3488. |
| [37] | Yan, X.;Cui, X.;Li, B.;Li, L.-S. .Large, solution-processable graphene quantum dots as light absorbers for photovoltaics[J].Nano letters,2010(5):1869-1873. |
| [38] | Dai L;Yu D;Nagelli E et al.Metal-free carbon nanomaterials become more active than metal catalysts and last longer[J].J Phys Chem Lett,2010,1:2165. |
| [39] | Kim C;Kim Y J;Kim Y A et al.High performance of cupstacked-type carbon nanotubes as a Pt-Ru catalyst support for fuel cell applications[J].Journal of Applied Physics,2004,96:5903. |
| [40] | Seger B;Kamat P V .Electrocatalytically active grapheneplatinum nanocomposites.Role of 2-D carbon support in PEM fuel cells[J].Journal of Physical Chemistry C,2009,113:7990. |
| [41] | Zhu N;Liu W;Xue M et al.Graphene as a conductive additive to enhance the high-rate capabilities of electrospun Li4Ti5O12 for lithium-ion batteries[J].Electrochimica Acta,2010,55:5813. |
| [42] | Yoo E;Kim J;Hosono E;Zhou H;Kudo T;Honma I .Large reversible Li storage of graphene nanosheet families for use in rechargeable lithium ion batteries[J].Nano letters,2008(8):2277-2282. |
| [43] | Bhardwaj, T.;Antic, A.;Pavan, B.;Barone, V.;Fahlman, B.D. .Enhanced electrochemical lithium storage by graphene nanoribbons[J].Journal of the American Chemical Society,2010(36):12556-12558. |
| [44] | Liu J;Kunz M;Chen K et al.Visualization of charge distribution in a lithium battery electrode[J].J Phys Chem Lett,2010,1:2120. |
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