采用脉冲激光沉积(PLD)方法,在SrTiO3(100)衬底上在650℃、10Pa N2条件下成功制备了立方结构的AlN薄膜.高能电子衍射(RHEED)及X射线衍射(XRD)分析表明立方AlN和SrTiO3的外延关系为AlN[100]∥SrTiO3[100]和AlN(200)∥SrTiO3(100).其AlN(200)衍射峰的摇摆曲线半高宽(FWHM)为0.44°,说明薄膜结晶性能良好.原子力显微镜(AFM)表明外延的立方AlN薄膜表面具有原子级平整度,其表面均方根粗糙度(RMS)为0.674nm.通过X光电子能谱(XPS)分析AlN薄膜表面成分,结果表明AlN薄膜表面没有被氧化.
参考文献
| [1] | Yim W M;Stofko E J;Zanzucchi P J et al.[J].Journal of Applied Physics,1973,44:292-296. |
| [2] | Nakamura S;Mukai T;Senoh M .[J].Applied Physics Letters,1994,64:1687. |
| [3] | Akasaki I;Amano H .[J].Journal of Applied Physics,1997,36:5393. |
| [4] | Siwiec J;Sokolowska A;Olszyna A et al.[J].Nano-Structured Materials,1998,10:625. |
| [5] | Collige J P.Materials to Vsli[M].Kluwer Academic Publishers,1991 |
| [6] | Ito S;Fujioka H;Ohta J et al.[J].Physica Status Solidi,2002,1:192-195. |
| [7] | Bengtsson S;Bergh M et al.[J].Journal of Applied Physics,1996,35:4175. |
| [8] | Wang Y Y;Wong M S;Chia W J .[J].Journal of Vacuum Science and Technology A-Vacuum Surfaces and Films,1998,16:3341-3347. |
| [9] | Steoyama M;Irie M;Ohara H et al.[J].Thin Solid Films,1999,341:126-131. |
| [10] | Kim D G;Seong T Y;Baik Y J .[J].Thin Solid Films,2001,397:203-207. |
| [11] | Xi Y A;Chen K X;Mont F et al.[J].Applied Physics Letters,2006,89:103106. |
| [12] | Onojima N;Jun Suda;Matsunami H .[J].Applied Physics Letters,2002,80:76. |
| [13] | Liu Y;Chen T P;Zhao Z et al.[J].Journal of Applied Physics,2005,87:33112. |
| [14] | Ohta J;Fujioka H;Ito S et al.[J].Thin Solid Films,2003,435:218-221. |
| [15] | Zhu J;Wei X H;Zhang Y et al.[J].Journal of Applied Physics,2006,100:104-106. |
| [16] | Hauert R;Glisenti A;Metin S .[J].Thin Solid Films,1995,268:22-29. |
| [17] | Mcguire G E;Schweitzer G K;Carlson T A et al.[J].Inorganic Chemistry,1973,12:2451. |
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%