分枝碳纳米管在微纳电子器件等领域具有十分广阔的应用前景.介绍了分枝碳纳米管的各种制备方法,探讨了分枝碳纳米管的不同生长机理,重点分析了影响分枝碳纳米管的形成及分叉的因素,对分枝碳纳米管的制备具有重要的指导意义.
Branched carbon nanotubes (BCNTs) show patient applications on micro/nano electrical devices. A series of BCNTs preparation methods are introduced, and its different growth mechanisms are investigated. At the same time, the influencing factors on branching carbon nanotubes are analyzed emphatically. Finally, the future in this field is also prospected.
参考文献
| [1] | Iijima S .Helical microtubules of graphitic carbon[J].Nature,1991,354:56. |
| [2] | Romo-Herrera JM;Terrones M;Terrones H;Dag S;Meunier V .Covalent 2D and 3D networks from 1D nanostructures: Designing new materials[J].Nano letters,2007(3):570-576. |
| [3] | Scuseria G E .Negative curvature and hyperfullerenes[J].CHEMICAL PHYSICS LETTERS,1992,195:534. |
| [4] | Chernozatonskii L A .Carbon nanotube connectors and plamr jungle gyms[J].Physics Letters A,1992,172:173. |
| [5] | Biro L P;Horvath Z E et al.Carbon nanotube Y-junctions:Growth and properties[J].Diana Relat Mater,2004,13:241. |
| [6] | Li J;Papadopoulos C;Xu J .Nanoelectronics-growing Y-junction carbon nanotubes[J].Nature,1999,402:253. |
| [7] | Kong LB .Synthesis of Y-junction carbon nanotubes within porous anodic aluminum oxide template[J].Solid State Communications,2005(8):527-529. |
| [8] | Sui Y C;Gonzalez J A et al.Synthesis of multi branched carbon nanotubes in porous anodic aluminum oxide template[J].Carbon,2001,39:1709. |
| [9] | Gothard N;Daraio C;Gaillard J et al.Controlled growth of Y-junction nanotubes using Ti-Doped vapor catalyst[J].Nano Letters,2004,4:213. |
| [10] | Li W Z;Pandey B;Liu Y Q .Growth and structure of carbon nanotube Y-junctions[J].Journal of Physical Chemistry B,2006,110:23694. |
| [11] | Jun Huang;Do Hyun Kim;Raghunandan Seelaboyina .Catalysts effect on single-walled carbon nanotube branching[J].Diamond and Related Materials,2007(8):1524-1529. |
| [12] | Can B;Ahn J;Zhang Q et al.Branching carbon nanotubes deposited in HFCVD system[J].Diamond and Related Materials,2000,9:897. |
| [13] | Zhu H W;Ci L J;Xu C L et al.Growth mechanism of Y-junction carbon nanotubes[J].Diamond and Related Materials,2002,11:1349. |
| [14] | W. Z. Li;J. G. Wen;Z. F. Ren .Straight carbon nanotube Y junctions[J].Applied physics letters,2001(12):1879-1881. |
| [15] | Tao XY;Zhang XB;Cheng JP;Wang YW;Liu F;Luo ZQ .Synthesis of novel multi-branched carbon nanotubes with alkali-element modified Cu/MgO catalyst[J].Chemical Physics Letters,2005(1/3):89-92. |
| [16] | Choi Y C;Choi W .Synthesis of Y-junction single-wall carbon nanotubes[J].Carbon,2005,43:2737. |
| [17] | Deepak FL.;Rao CNR.;Govindaraj A. .Synthetic strategies for Y-junction carbon nanotubes[J].Chemical Physics Letters,2001(1/2):5-10. |
| [18] | Luo, CX;Liu, L;Jiang, KL;Zhang, L;Li, QQ;Fan, SS .Growth mechanism of Y-Junctions and related carbon nanotube junctions synthesized by Au-catalyzed chemical vapor deposition[J].Carbon,2008(3):440-444. |
| [19] | Heyning OT;Bernier P;Glerup M .A low cost method for the direct synthesis of highly Y-branched nanotubes[J].Chemical Physics Letters,2005(1/3):43-47. |
| [20] | Chai SP;Zein SHS;Mohamed AR .Formation of Y-junction carbon nanotubes by catalytic CVD of methane[J].Solid State Communications,2006(5):248-250. |
| [21] | Liu Q;Cui ZM;Ma Z;Bian SW;Song WG .Carbon materials with unusual morphologies and their formation mechanism[J].The journal of physical chemistry, C. Nanomaterials and interfaces,2007(33):12420-12424. |
| [22] | Shane H;Rui W et al.Synthesis of branched carbon nanotubes using copper catalysts in a hydrogen-filled DC are-discharger[J].CARBON,2009,47:635. |
| [23] | Jiang Y.;Zhang SY.;Xu CY.;Yu WC.;Xie Y.;Qian YT.;Wu Y. .A catalytic-assembly solvothermal route to multiwall carbon nanotubes at a moderate temperature[J].Journal of the American Chemical Society,2000(49):12383-12384. |
| [24] | Zhenyu Yao;Xi Zhu;Xiaoxu Li .Synthesis of novel Y-junction hollow carbon nanotrees[J].Carbon: An International Journal Sponsored by the American Carbon Society,2007(7):1566-1570. |
| [25] | Lou Z S;Chen C L;Huang H Y et al.Fabrication of Y-junction carbon nanotubes by reduction of carbon dioxide with sodium borohydride[J].Diamond and Related Materials,2006,15:1540. |
| [26] | Liu S W;Rudolf J;Wehmschulte .A novel hybrid of carbon nanotubes/iron nanoparticles:Iron-filled nodule-containing carbon nanotubes[J].Carbon,2005,43:1550. |
| [27] | B. C. Satishkumar;P. John Thomas;A. Govindaraj .Y-junction carbon nanotubes[J].Applied physics letters,2000(16):2530-2532. |
| [28] | Gan B.;Zhang Q.;Rusli.;Yoon SF.;Yu J.;Huang QF.;Chew K. Ligatchev VA.;Zhang XB.;Li WZ.;Ahn J. .Y-junction carbon nanotubes grown by in situ evaporated copper catalyst[J].Chemical Physics Letters,2001(1/2):23-28. |
| [29] | Wei DC;Liu YQ;Cao LC;Fu L;Li XL;Wang Y;Yu G;Zhu DB .A new method to synthesize complicated multibranched carbon nanotubes with controlled architecture and composition[J].Nano letters,2006(2):186-192. |
| [30] | Kong J.;Dai HJ.;Cassell AM. .Chemical vapor deposition of methane for single-walled carbon nanotubes[J].Chemical Physics Letters,1998(4-6):567-574. |
| [31] | Endo M;Kroto H W .Formation of carbon nanofibers[J].Journal of Physical Chemistry,1992,96:6941. |
| [32] | Iijima S .Growth of carbon nanotubes[J].Materials Science and Engineering B,1993,19:172. |
| [33] | Smalley R E .From dopyballs to nanowires[J].Materials Science and Engineering B,1993,19:1. |
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