纳米电缆材料因其独特的光学性能、电学性能、磁学性能及几何结构而成为当今纳米材料研究领域的热点和重点.介绍了纳米电缆的研究进展、纳米电缆的结构和制备技术的发展状况,详细阐述了电弧放电、化学气相沉积、毛细管虹吸等多种制备方法,并展望了纳米电缆的发展和应用前景,纳米电缆的研究对于以纳米材料为基础而构筑的微纳米器件有着重要的意义.
参考文献
[1] | IIJIMA S .Helical mierotubes of graphitic carbon[J].Nature,1991,354:56-58. |
[2] | TSANGSC;CHENYK;HARRISP J F et al.Asimple chem-ical method of opening and filling carbon nanotubes[J].Nature,1994,372:159-162. |
[3] | SUBRAMONED S;RUOFF R S .Magnetic separation of GdC2 encapsulated in carbon nanoparticles[J].CARBON,1994,32:507-513. |
[4] | Liu MG.;Cowley JM. .ENCAPSULATION OF MANGANESE CARBIDES WITHIN CARBON NANOTUBES AND NANOPARTICLES[J].Carbon: An International Journal Sponsored by the American Carbon Society,1995(6):749-756. |
[5] | IJIMA S;ICHIHASHI T .Single-shell carbon nanotubes of 1-nm diameter[J].Nature,1993,363:603-605. |
[6] | AJAYAN P M;EBBESEN T W;ICHIHASHI T et al.Opening carbon nanotubes with oxygen and implications for filling[J].Nature,1993,362:522-525. |
[7] | DUJARDIN E;EBBESEN T W;HIUR A et al.Capillarity and wetting of carbon nanotubes[J].Science,1994,265:1850-1852. |
[8] | CRISTINA E G;YANN T;DANIEL H W.Scanning Tunneling Microscopy Study of Ag-and Fe-filled Single Wall Car-bon Nanotubes[A].The Robert Gordon University,Aberdeen,Scotland,2006:6B5. |
[9] | Guangcheng Xi;Meng Zhang;Dekun Ma .Controlled synthesis of carbon nanocables and branched-nanobelts[J].Carbon: An International Journal Sponsored by the American Carbon Society,2006(4):734-741. |
[10] | Zong-Jian Liu;Renchao Che;Zhude Xu .Preparation of Fe-filled carbon nanotubes by catalytic decomposition of cyclohexane[J].Synthetic Metals,2002(2):191-195. |
[11] | Kun-Hou Liao;Jyh-Ming Ting .Characteristics of aligned carbon nanotubes synthesized using a high-rate low-temperature process[J].Diamond and Related Materials,2006(9):1210-1216. |
[12] | Li DC.;Huang SM.;Mau AWH.;Wang ZL.;Dai LM. .Structure and growth of aligned carbon nanotube films by pyrolysis[J].Chemical Physics Letters,2000(5-6):349-355. |
[13] | Yoong Ahm Kim;Takuaya Hayashi;Morinobu Endo .Fabrication of Aligned Carbon Nanotube-Filled Rubber Composite[J].Scripta materialia,2006(1):31-35. |
[14] | SEN R;GOVINDARAJ A;RAO C N R .Metal-filled and hol-low carbon nanotubes obtained by the decomposition of metal-containing free precursor molecules[J].Chemistry of Materials,1997,9:2078-2081. |
[15] | J. Qiu;Q. Li;Z. Wang .CVD synthesis of coal-gas-derived carbon nanotubes and nanocapsules containing magnetic iron carbide and oxide[J].Carbon: An International Journal Sponsored by the American Carbon Society,2006(12):2565-2568. |
[16] | CAO A;ZHANG X;WEI J et al.Macroscopic three-dimen-sional arrays of Fe nanoparticles supported in aligned carbon nanotubes[J].Journal of Physical Chemistry B,2001,105:11937-11940. |
[17] | GROBERT N;HSU W K;ZHU Y Q et al.Enhanced magnet-ic coereivities in Fe nanowires[J].Applied Physics Letters,1999,75:3363-3365. |
[18] | Han WQ.;Seeger T.;Ernst F.;Ruhle M.;Grobert N.;Hsu WK.;Chang BH.;Zhu YQ.;Kroto HW.;Walton DRM.;Terrones M.;Terrones H.;Kohler-Redlich P. .Aligned CNx nanotubes by pyrolysis of ferrocene/C-60 under NH3 atmosphere[J].Applied physics letters,2000(12):1807-1809. |
[19] | Pradhan BK.;Kyotani T.;Tomita A.;Toba T. .Inclusion of crystalline iron oxide nanoparticles in uniform carbon nanotubes prepared by a template carbonization method[J].Chemistry of Materials,1998(9):2510-2515. |
[20] | Suwen Liu;Rudolf J. Wehmschulte .A novel hybrid of carbon nanotubes/iron nanoparticles: iron-filled nodule-containing carbon nanotubes[J].Carbon: An International Journal Sponsored by the American Carbon Society,2005(7):1550-1555. |
[21] | T. Luo;L. Chen;K. Bao .Solvothermal preparation of amorphous carbon nanotubes and Fe/C coaxial nanocables from sulfur, ferrocene, and benzene[J].Carbon: An International Journal Sponsored by the American Carbon Society,2006(13):2844-2848. |
[22] | Lee KH;Seo WS;Lee Y;Lee MH;Song SJ;Sigmund W .Growth of SiC-C nanocables on SiO2 films derived by gaseous composition control using Ti[J].Journal of Crystal Growth,2005(2/4):556-562. |
[23] | Jyongsik Jang;Joonwon Bae .Carbon nanofiber/polypyrrole nanocable as toxic gas sensor[J].Sensors and Actuators, B. Chemical,2007(1):7-13. |
[24] | ZHANG X T;ZHANG J;WANG R M et al.Cationic surfac-tant directed polyaniline/CNT nanocables:synthesis,chacacte:rization,and enhanced electrical properties[J].CARBON,2004,42:1455-1461. |
[25] | VIKTORIA V I;SIBYLLE G;THOMAS H;et el.Metal nanowires inside carbon nanotubes:electronic and magnetic properties[A].The Robert Gordon University,Aberdeen,Scotland,2006:9B6. |
[26] | YANG S S;PIKHITSA P V;KIM Y J.Synthesis of met-al doped shell-shaped carbon nanoparticles and their characteris-tics[A].The Robert Gordon University,Aberdeen,Scotland,2006:1B1. |
[27] | L. D. Zhang;G. W. Meng;F. Phillipp .Synthesis and characterization of nanowires and nanocables[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2000(1):34-38. |
[28] | Wu XC.;Zhao B.;Huang WD.;Pu MH.;Sun YP.;Du JJ.;Song WH. .Synthesis of coaxial nanowires of silicon nitride sheathed with silicon and silicon oxide[J].Solid State Communications,2000(12):683-686. |
[29] | LI Z J;LI H J;CHEN X L et al.Large-scale synthesis of crys-talline R-SiC nanowires[J].Applied Physics A:Materials Science and Processing,2003,76(04):637-640. |
[30] | Ran GZ.;You LP.;Dai L.;Liu YL.;Lv Y.;Chen XS.;Qin GG. .Catalystless synthesis of crystalline Si3N4/amorphous SiO2 nanocables from silicon substrates and N-2[J].Chemical Physics Letters,2004(1/3):94-97. |
[31] | Yang ZX;Zhou WM;Zhu F;Zhang YF .SiC/SiO2 core-shell nanocables formed on the carbon fiber felt[J].Materials Chemistry and Physics,2006(2/3):439-441. |
[32] | Zhou WM;Yang ZX;Zhu F;Zhang YF .SiC/SiO2 nanocables and nanosprings synthesized by catalyst-free method[J].Physica, E. Low-dimensional systems & nanostructures,2006(1):9-12. |
[33] | Liu DF.;Xie SS.;Yan XQ.;Ci LJ.;Shen F.;Wang JX.;Zhou ZP.;Yuan HJ. Gao Y.;Song L.;Liu LF.;Zhou WY.;Wang G. .A simple large-scale synthesis of coaxial nanocables: silicon carbide sheathed with silicon oxide[J].Chemical Physics Letters,2003(3-4):269-272. |
[34] | YU D P;XING Y J;TENCE M et al.Microstructural and compositional characterization of a new silicon carbide nanocables using scanning transmission electron microscopy[J].Physica E,2002,15:1-5. |
[35] | Yang ZX;Wu YJ;Zhu F;Zhang YF .Helical nanocables with SiC core and SiO2 shell[J].Physica, E. Low-dimensional systems & nanostructures,2005(4):395-398. |
[36] | Li YB;Bando Y;Golberg D;Uemura Y .Synthesis and photoluminescence of amorphous silicon nitride/silica coaxial nanotubes[J].Chemical Physics Letters,2004(1/3):128-131. |
[37] | J. He;Y. Huang;Y. Zhang .Large-scale synthesis, microstructure and growth mechanism of self-assembled core-shell ZnO/SiO_x nanowires[J].Materials Letters,2006(2):150-153. |
[38] | Xu CK;Kim M;Chung SY;Chun J;Kim DE .The formation of SiGaN/SiOxNy nanocables and SiOxNy-based nanostructures using GaN as a resource of Ga[J].Chemical Physics Letters,2004(1/3):264-269. |
[39] | Ma R Z;BANDO Y S;SATO T d .Coaxial nanocables:Fe nanowires encapsulated in BN nanotubes with intermediate C layers[J].Chemical Physics Letters,2001,350:1-5. |
[40] | Jiang ZY.;Xie ZX.;Zhang XH.;Huang RB.;Zheng LS. .Conversion of Se nanowires to Se/Ag2Se nanocables and Ag2Se nanotubes[J].Chemical Physics Letters,2003(3-4):313-316. |
[41] | Jun Zhang;Feihong Jiang;Yongdong Yang .Growth and structural characterization of InN/In_2O_3 coaxial nanocables[J].Materials Letters,2006(17/18):2153-2157. |
[42] | Golberg D.;Bando Y.;Mitome M.;Kurashima K.;Grobert N.;Reyes-Reyes M. Terrones H.;Terrones M. .Nanocomposites: synthesis and elemental mapping of aligned B-C-N nanotubes[J].Chemical Physics Letters,2002(1/2):1-7. |
[43] | K. Zou;X.H. Zhang;X.F. Duan;X.M. Meng;S.K. Wu .Seed-mediated synthesis of silver nanostructures and polymer/ silver nanocables by UV irradiation[J].Journal of Crystal Growth,2004(1/2):285-291. |
[44] | Bando Y.;Golberg D.;Ogawa K. .Insulating 'nanocables': Invar Fe-Ni alloy nanorods inside BN nanotubes[J].Chemical Physics Letters,2001(4-6):349-354. |
[45] | Li YB.;Bando Y.;Golberg D. .Mg2Zn11-MgO belt-like nanocables[J].Chemical Physics Letters,2003(1/2):102-105. |
[46] | Jiang XC.;Mayers B.;Wang YL.;Cattle B.;Xia YN. .Template-engaged synthesis of RuSe2 and Pd17Se15 nanotubes by reacting precursor salts with selenium nanowires[J].Chemical Physics Letters,2004(5-6):472-476. |
[47] | Ming-Chi Hsu;Ing-Chi Leu;Yu-Ming Sun;Min-Hsiung Hon .Fabrication of CdS@TiO_2 coaxial composite nanocables arrays by liquid-phase deposition[J].Journal of Crystal Growth,2005(4):642-648. |
[48] | Deng Y.;Wu JB.;Liu J.;Wei GD.;Nan CW. .Hydrothermal growth and characterization of La(OH)(3) nanorods and nanocables with Ni(OH)(2) coating[J].The journal of physics and chemistry of solids,2003(4):607-610. |
[49] | KIM S Y;JEONG M C;OH B Y et al.Fabrication of Zn/ZnO nanocahles through thermal oxidation of Zn nanowires grown by RF magnetron sputtering[J].Journal of Crystal Growth,2006,290:485-489. |
[50] | Huang GS;Xie Y;Wu XL;Yang LW;Shi Y;Siu GG;Chu PK .Formation mechanism of individual alumina nanotubes wrapping metal (Cu and Fe) nanowires[J].Journal of Crystal Growth,2006(1):295-298. |
[51] | Y. Yang;L. Li;X. Huang .Fabrication of InSb-core/alumina-sheath nanocables[J].Materials Letters,2006(4):569-571. |
[52] | Jang WS;Kim SY;Lee J;Park J;Park CJ;Lee CJ .Triangular GaN-BN core-shell nanocables: Synthesis and field emission[J].Chemical Physics Letters,2006(1-3):41-45. |
[53] | Xi YY;Zhou JZ;Guo HH;Cai CD;Lin ZH .Enhanced photoluminescence in core-sheath CdS-PANI coaxial nanocables: A charge transfer mechanism[J].Chemical Physics Letters,2005(1/3):60-64. |
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