利用特制的电弧放电装置,研究了水或液氮中碳电弧放电形成炭纳米材料的机理.借助高分辨率透射电子显微镜对电弧放电生成的产物进行了观察和分析.结果表明:在水或液氮中碳电弧放电可以生成多壁碳纳米管和碳纳米洋葱结构,液氮中碳电弧放电可以生成单壁碳纳米角,水中钴催化碳电弧放电可以生成碳包裹的纳米钴颗粒.横向低频交变磁场会影响碳纳米材料的形核过程,并且可以推测磁场交变的频率5 Hz与纳米管、纳米洋葱等结构的生长周期存在某种拟合.根据实验现象,提出了一种解释液体中碳电弧放电过程纳米材料生成的理论模型.
The growth mechanism of carbon nano-materials by arc discharge in water or liquid nitrogen was investigated using a special arc discharge apparatus. High-resolution transmission electron microscopy was used to observe and analyze the products. Results indicated that multi-walled carbon nanotubes (MWCNTs) and carbon onions can be produced by arc discharge in water and liquid nitrogen respectively. Single-walled carbon nanohorns can be produced by arc discharge in liquid nitrogen, and cobalt encapsulated carbon nano-particles can be produced by cobalt catalyzed carbon arc discharge in water. The liquids acted as quenching walls for the nucleation and growth of carbon nano-materials, resulting in the formation of different forms of carbon nano-materials. A cross alternating magnetic field with a frequency 5 Hz can affect the nucleation of nano-materials to form MWCNTs or carbon onions because nucleation time is longer than the periodicity of the magnetic field. Based on the experimental phenomena, a primary physical model was proposed to interpret the growth of nano-materials by arc discharge in liquids.
参考文献
| [1] | Kroto H W;Heath J R;O'Brien S C et al.Buckyminister-fullerene[J].Nature,1985,318:162-163. |
| [2] | Iijima S .Helical microtubules of graphitic carbon[J].Nature,1991,354:56-58. |
| [3] | Iijima S;Ichihashi T .Single-shell carbon nanotubes of 1-nm diameter[J].Nature,1993,363:603-605. |
| [4] | Ugarte D. .ONION-LIKE GRAPHITIC PARTICLES[J].Carbon: An International Journal Sponsored by the American Carbon Society,1995(7):989-993. |
| [5] | S. Iijima;M. Yudasaka;R. Yamada;S. Bandow;K. Suenaga;F. Kokai;K. Takahashi .Nano-aggregates of single-walled graphitic carbon nano-horns[J].Chemical Physics Letters,1999(3/4):165-170. |
| [6] | Yamaguchi T;Bandow S;Iijima S .Synthesis of carbon nanohorn particles by simple pulsed arc discharge ignited between pre-heated carbon rods[J].Chemical Physics Letters,2004,389:181-185. |
| [7] | Journet C;Maser W K;Bernier P et al.Large-scale production of single-walled carbon nanotubes by the electric-arc technique[J].Nature,1997,388:756-758. |
| [8] | 刘畅,丛洪涛,成会明.氢等离子电弧法半连续制备单壁纳米碳管[J].新型炭材料,2000(02):1-5. |
| [9] | 赵宗彬,邱介山,王同华,李永峰,周颖.以煤为碳源直流电弧法制备单壁纳米碳管绳[J].新型炭材料,2006(01):19-23. |
| [10] | 姚明光,刘冰冰,邹永刚,李冬妹,艾晓雷,王霖,于世丹,邹广田,B Sundqvist.Ho/Ni作为催化剂合成单壁碳纳米管[J].新型炭材料,2006(01):70-74. |
| [11] | C.D.Scott;S.Arepalli;P.Nikolaev;R.E.Smalley .Growth mechanisms for single-wall carbon nanotubes in a laser-ablation process[J].Applied physics, A. Materials science & processing,2001(5):573-580. |
| [12] | Yacaman M J;Yoshida M M;Rendon L .Catalytic growth of carbon microtubes with fullerene structure[J].Applied Physics Letters,1993,62:657-659. |
| [13] | 雷中兴,刘静,王建波,李轩科,汪厚植.催化剂结构与形态对碳纳米管生长的影响[J].新型炭材料,2003(04):271-276. |
| [14] | Ishigami M.;Zettl A.;Chen S.;Cumings J. .A simple method for the continuous production of carbon nanotubes[J].Chemical Physics Letters,2000(5-6):457-459. |
| [15] | Sano N;Wang H;Chhowalla M et al.Nanotechnology-synthesis of carbon 'onion' in water[J].Nature,2001,414:506-507. |
| [16] | H Wang;M Chhowalla;N Sano .Large-scale synthesis of single-walled carbon nanohorns by submerged arc[J].Nanotechnology,2004(5):546-550. |
| [17] | Hsin YL.;Chen FR.;Kai JJ.;Hwang KC. .Production and in-situ metal filling of carbon nanotubes in water[J].Advanced Materials,2001(11):830-833. |
| [18] | 王晓敏,许并社,刘旭光,市野濑英喜.纳米金属微粒催化制备的洋葱状富勒烯的结构表征[J].新型炭材料,2004(03):209-213. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%