利用气相化学反应法,在相对低的温度下,于自制石墨反应室中合成出二维半导体β-SiC纳米线网.该方法使用球磨及研磨混合后的Si和SiO2混合粉体及C3H6气体为原材料,通过调整基片与原料混合粉在石墨反应室的摆放位置、C3H6通入流量和时间、保温时间及其它工艺参数,可获得二维半导体β-SiC纳米线网.场发射扫描电镜、能量损失谱、X-Ray衍射、高分辨透射电镜结果表明:纳米线彼此相连形成二维纳米线网,并且纳米线的直径大约在20 nm~70nm左右.值得注意的是绝大多数纳米线网的连接点是由3根纳米线交汇而成.纳米线是具有立方结构的β-SiC,其生长方向是〈111〉,并且存在大量面缺陷.最后对这种新型二维SiC纳米线网的形成机理进行了探讨.
参考文献
| [1] | Fisher A et al.[J].Applied Physics Letters,1995,66:3182. |
| [2] | 韩若冰 等.[J].稀有金属材料与工程,2004,33(zk):102. |
| [3] | Wong E W et al.[J].Science,1997,277:1971. |
| [4] | Han WQ.;Li QQ.;Liang WJ.;Gu BL.;Yu DP.;Fan SS. .CONTINUOUS SYNTHESIS AND CHARACTERIZATION OF SILICON CARBIDE NANORODS[J].Chemical Physics Letters,1997(3-5):374-378. |
| [5] | Zhou X.T. .Thin #beta#-SiC nanords and their field emission properties[J].Chemical Physics Letters,2000(1/3):58-62. |
| [6] | Pan ZW.;Au FCK.;Duan XF.;Zhou WY.;Shi WS.;Wang N.;Lee CS. Wong NB.;Lee ST.;Xie SS.;Lai HL. .Oriented silicon carbide nanowires: Synthesis and field emission properties[J].Advanced Materials,2000(16):1186-1190. |
| [7] | Dai H J et al.[J].Nature,1995,375:769. |
| [8] | Tang CC.;Dang HY.;Zhao JH.;Zhang C.;Li P.;Gu Q.;Fan SS. .Growth of SiC nanorods prepared by carbon nanotubes-confined reaction[J].Journal of Crystal Growth,2000(4):595-599. |
| [9] | Zhou X T .[J].Applied Physics Letters,1999,74:3942. |
| [10] | Li Y B et al.[J].Journal of Crystal Growth,2001,223:125. |
| [11] | Li Z J et al.[J].Applied Physics A:Materials Science and Processing,2003,76(04):637. |
| [12] | Huang Y et al.[J].Science,2001,291:630. |
| [13] | Duan X F et al.[J].Nature,2001,409:66. |
| [14] | Huang Y et al.[J].Science,2001,294:1313. |
| [15] | Zhang Z K et al.[J].Science in China,1998,41:30. |
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:
-
10%
-
20%
-
30%
-
40%
-
50%