碳纳米管模板导向制备煤沥青基电热材料及其性能调控研究

Facile preparation of pitch-derived carbon for high electrically conductive composites via carbon nanotube template

  • 摘要: 本研究以煤沥青为原料、多壁碳纳米管为结构导向剂,通过炭化制备了形貌和结构可控的煤沥青基碳膜,考察了多壁碳纳米管对导电填料结构及碳膜电热性能的影响规律。研究发现,多壁碳纳米管掺杂导致导电填料的晶格排列有序度增加、晶格间距减小和石墨化程度提高;多壁碳纳米管的引入提高了碳膜的载流子浓度,进而显著提高了其导电性。掺杂2%碳纳米管,可使煤沥青基碳膜的载流子浓度提高3.2倍、电阻降低67%;在5、10和15 V电压下,煤沥青基碳膜的发热温度分别可达44、88和165 ℃,相对未掺杂碳膜分别提高了7、22和70 ℃,显示出极大的应用前景。

     

    Abstract: Coal pitch, a byproduct of coal coking, is an ideal precursor for preparing conductive carbon fillers because of its rich aromatics and high yield of carbonization products. In this paper, coal pitch-based carbon materials with controllable morphology and structure were prepared by carbonization using coal pitch and multi-walled carbon nanotubes as raw material and structure-directing agent, respectively. The effect of carbon nanotubes on the structure and electrothermal properties of carbon materials was investigated. The results show that the doping of multi-walled carbon nanotubes results in an increase in the lattice arrangement order, a decrease in lattice spacing, and an increase in graphitization degree of conductive fillers, which leads to a significant increase in the carrier concentration of the carbon film and thus its conductivity. The doping of 2% carbon nanotubes can increase the carrier concentration of coal pitch-based carbon film by 3.2 times and reduce the resistance of coal pitch-based carbon film by 67%. At 5, 10 and 15 V, the heating temperature of the coal pitch-based carbon film can reach 44, 88 and 165 ℃, respectively, which is enhanced 7, 22 and 70 ℃ compared with the undoped carbon film, showing great application prospect.

     

/

返回文章
返回