欢迎登录材料期刊网

材料期刊网

高级检索

通过稳定化、炭化静电纺制的聚丙烯腈(PAN)前驱体纤维制备了直径为100nm~300nm的纳米炭纤维.用扫描电镜(SEM)、场发射扫描电镜(FESEM)、扫描隧道显微镜(STM)及扫描量热分析法(DSC)研究了纳米炭纤维及其前驱体纤维的形貌及结构.结果表明:纳米炭纤维及其前驱体纤维的直径表现为对数正态分布.静电纺制纤维的环化放热峰移向低温,表明静电纺制纤维可在较低的温度下引发环化.由于静电纺制纤维的粗糙表面及在热处理过程中的收缩行为,在纳米炭纤维表面形成了长度为10nm宽度为5nm的凹坑.

Carbon nanofibers with diameters in the range of 100 nm to 300 nm were obtained by stabilizing and carbonizing electrospun polyacrylonitrile (PAN) precursors. The morphologies and structures of the nanofibers and PAN precursors were investigated by scanning electron microscopy, scanning tunneling microscopy, and differential scanning calorimetry. The diameters of the PAN precursors and carbon nanofibers showed a log- normal distribution. The cyclization exothermic peak shifted to a lower temperature for electrospun fibers, which suggested that cyclization could be more easily initiated. Pits 10nm in length and 5 nm in width formed on the surface of the carbon nanofibers, caused by the rough surface of the electrospun precursors and their shrinkage during heat treatment.

参考文献

[1] 韩曙鹏,徐樑华,曹维宇,姚红,白丽芳.成纤过程中PAN纤维聚集态结构的形成[J].新型炭材料,2006(01):54-58.
[2] Shofner M L;Rodriguez-Macias F J;Vaidyanathan R .Single wall nanotube and vapor grown carbon fiber reinforced polymers processed by extrusion frecform fabrication[J].Composites,2003,34A:1207-1217.
[3] 毛宗强,徐才录,阎军,梁吉,孙公敏,魏秉庆,吴德海.碳纳米纤维储氢性能初步研究[J].新型炭材料,2000(01):64-67.
[4] Haoqing Hou;Darrell H. Reneker;Darrell H. Reneker .Carbon Nanotubes on Carbon Nanofibers: A Novel Structure Based on Electrospun Polymer Nanofibers[J].Advanced Materials,2004(1):69-73.
[5] Iksoo Chun;Darrell H. Reneker;Hao Fong;Xiaoyan Fang;Joe Deitzel;Nora Beck Tan;Kristen Kearns .Carbon Nanofibers from Polyacrylonitrile and Mesophase Pitch[J].Journal of advanced materials,1999(1):36-41.
[6] Electrochemical properties of carbon nanofiber web as an electrode for supercapacitor prepared by electrospinning[J].Applied physics letters,2003(6):1216-1218.
[7] Arbizzani C;Mastragostino M;Meneghello L et al.Electronically conducting polymers and activated carbon:electrode materials in supercapacitor technology[J].Advanced Materials,1996,8:331-335.
[8] Duan X;Huang Y;Wang J et al.Indium phosphide nanowires as building blocks for nanoscale electronic and optoelectronic devices[J].Nature,2001,409:66-68.
[9] Endo M;Takeuchi K;Igarashi S .The production and structure of pyrolytic carbon nanotubes[J].Journal of Physics & Chemistry of Solids,1993,54:1841-1847.
[10] 侯鹏翔,白朔,范月英,沈祖洪,成会明.气体流动状态对纳米碳纤维制备的影响[J].新型炭材料,2000(04):17-20.
[11] 杜金红,苏革,白朔,侯鹏翔,范月英,成会明.气相生长纳米碳纤维表面化学镀镍[J].新型炭材料,2000(04):49-53.
[12] Vladimir I. Merkulov;A. V. Melechko;M. A. Guillorn;M. L. Simpson;D. H. Lowndes;J. H. Whealton;R. J. Raridon .Controlled alignment of carbon nanofibers in a large-scale synthesis process[J].Applied physics letters,2002(25):4816-4818.
[13] Reneker DH.;Fong H.;Koombhongse S.;Yarin AL. .Bending instability of electrically charged liquid jets of polymer solutions in electrospinning[J].Journal of Applied Physics,2000(9 Pt.1):4531-4547.
[14] Park S H;Kim C;Choi Y O et al.Preparations of pitch-based CF/ACF webs by electrospinning[J].CARBON,2003,41:2655-2661.
[15] Yang K S;Edie D D;Lira D Y et al.Preparation of carbon fiber web from electrostatic spinning PMDA-ODA poly (amic acid) solution[J].CARBON,2003,41:2039-2046.
[16] Yu Wang;Santiago Serrano;Jorge J. Santiago-Aviles .Raman characterization of carbon nanofibers prepared using electrospinning[J].Synthetic Metals,2003(3):423-427.
[17] Large negative magnetoresistance and two-dimensional weak localization in carbon nanofiber fabricated using electrospinning[J].Journal of Applied Physics,2003(3):1721-1727.
[18] Wang Y;Serrano S;Santiago-Aviles J J .Conductivity measurement of electrospun PAN-based carbon nanofibers[J].Journal of Materials Science Letters,2002,21:1055-1057.
[19] Jaeger R.;Batlle CMI.;Schonherr H.;Vancso GJ.;Bergshoef MM. .Electrospinning of ultra-thin polymer fibers[J].Macromolecular symposia,1998(0):141-150.
[20] Bergshoef MM.;Vancso GJ. .Transparent nanocomposites with ultrathin, electrospun nylon-4,6 fiber reinforcement[J].Advanced Materials,1999(16):1362-1365.
[21] Kim H S .Preparation and electrochemical properties of electrically conductive polyetherimide-polypyrrole composites[J].Journal of Polymer Science,1996,B34:1181-1189.
[22] 刘杰,王雷,张旺玺,李佳,梁节英.热稳定化过程中PAN纤维热应力与热化学反应的关联性[J].新型炭材料,2005(04):343-349.
[23] Mathur R B;Bahl O P;Mittal J .A new approach to thermal stabilisation of PAN fibres[J].Carbon,1992,311:657-660.
[24] Jung K T;Hwang D K;Shul Y G et al.The preparation of isotactic polyacrylonitrile using zeolite[J].Materials Letters,2002,53:180-184.
[25] S.Y. Gu;J. Ren;Q.L. Wu .Preparation and structures of electrospun PAN nanofibers as a precursor of carbon nanofibers[J].Synthetic Metals,2005(1):157-161.
[26] Sang Hee Park;Chan Kim;Kap Seung Yang .Preparation of carbonized fiber web from electrospinning of isotropic pitch[J].Synthetic Metals,2004(2):175-179.
[27] Megelski S.;Stephens JS.;Chase DB.;Rabolt JF. .Micro- and nanostructured surface morphology on electrospun polymer fibers[J].Macromolecules,2002(22):8456-8466.
[28] 徐斌,吴锋,曹高萍,杨裕生.炭化温度对CO2活化PAN基活性炭纤维微结构的影响[J].新型炭材料,2006(01):14-18.
上一张 下一张
上一张 下一张
计量
  • 下载量()
  • 访问量()
文章评分
  • 您的评分:
  • 1
    0%
  • 2
    0%
  • 3
    0%
  • 4
    0%
  • 5
    0%