主要研究了氢掺杂氧化锌(ZnO∶H)薄膜的性能,发现随着H2流量比的变化,其主要表现为浅施主掺杂、钝化空位缺陷以及刻蚀等作用.当H2流量比较小时(R≤0.02),样品沿(002)择优向生长,这时H原子主要作为浅施主掺杂,钝化氧空位和取代锌离子,使晶胞体积变小,提高ZnO薄膜的结晶性,同时使得ZnO带尾变窄,带隙变宽;SEM图观察到薄膜表面粗糙,晶粒变大、且分布均匀;薄膜电阻率下降,主要是薄膜结晶质量提高增加了电子迁移率及浅施主掺杂提高了电子浓度.当H2流量比较大时(R≥0.04),样品XRD(002)衍射峰淬灭,晶胞体积变大,薄膜结晶度降低.从红外吸收谱可以看出,在3400~3900cm-1范围,出现一个较宽的吸收带,这属于典型的O-H键区域振动模式(LVM)吸收带.由于极性分子团羟基造成电荷不平衡,产生氧空位,提高电子浓度,使薄膜电阻率降低.同时,由于刻蚀作用使得缺陷浓度增加,带尾变宽,使得薄膜带隙变窄.
参考文献
| [1] | Van de Walle CG. .Hydrogen as a cause of doping in zinc oxide[J].Physical review letters,2000(5):1012-1015. |
| [2] | Hofmann DM.;Hofstaetter A.;Leiter F.;Zhou HJ.;Henecker F.;Meyer BK. Orlinskii SB.;Schmidt J.;Baranov PG. .Hydrogen: A relevant shallow donor in zinc oxide - art. no. 045504[J].Physical review letters,2002(4):5504-0. |
| [3] | E. V. Lavrov;F. Herklotz;J. Weber .Identification of Hydrogen Molecules in ZnO[J].Physical review letters,2009(18):169-172. |
| [4] | Naoki Ohashi;Takamasa Ishigaki;Nobuhiro Okada;Takashi Sekiguchi;Isao Sakaguchi;Hajime Haneda .Effect of hydrogen doping on ultraviolet emission spectra of various types of ZnO[J].Applied physics letters,2002(16):2869-2871. |
| [5] | Myong SY;Lim KS .Improved electrical stability and UV emission of zinc oxide thin films prepared by combination of metalorganic chemical vapor deposition technique and post-deposition hydrogen doping[J].Organic electronics,2007(1):51-56. |
| [6] | J. Mimila-Arroyo;S. W. Bland;J. Chevallier .Carbon reactivation kinetics in the base of heterojunction GaInP-GaAs bipolar transistors[J].Applied physics letters,2002(19):3632-3634. |
| [7] | Jackson G S;Pan N;Feng M S et al.Stripe-geometry A1x Ga1-x As-GaAs quantum well lasers via hydrogenation[J].Applied Physics Letters,1987,51:1629-1231. |
| [8] | Allovon M;Talneau A;Rao EVK;Huet F;Alexandre F;Ougazzaden A;Slempkes S;CNRS PHYS SOLIDES LAB F-92195 MEUDON FRANCE. .Low-loss hydrogenated buried waveguide coupler integrated with a four-wavelength distributive Bragg reflector laser array on InP[J].Applied physics letters,1997(13):1750-1752. |
| [9] | Lu Menglin;Weng Tongmin;Chen Juying et al.Ultrahigh-gain single SnO2 nanowire photodetectors made with ferromagnetic nickel electrodes[J].NPG Asia Materials,2012,4:26. |
| [10] | Young Ran Park;Juho Kim;Young Sung Kim .Effect of hydrogen doping in ZnO thin films by pulsed DC magnetron sputtering[J].Applied Surface Science: A Journal Devoted to the Properties of Interfaces in Relation to the Synthesis and Behaviour of Materials,2009(22):8986-8994. |
| [11] | Lavrov EV.;Weber J.;Borrnert F.;Van de Walle CG.;Helbig R. .Hydrogen-related defects in ZnO studied by infrared absorption spectroscopy - art. no. 165205[J].Physical Review.B.Condensed Matter,2002(16):5205-0. |
| [12] | Lavrov EV;Borrnert F;Weber J .Dominant hydrogen-oxygen complex in hydrothermally grown ZnO[J].Physical review, B. Condensed matter and materials physics,2005(3):5205-1-5205-6-0. |
| [13] | McCluskey M D;Jokela S J;Zhuravlev K K et al.Infrared spectroscopy of hydrogen in ZnO[J].Applied Physics Letters,2002,81(20):3807-3809. |
| [14] | Li X;Keyes B;Asher S et al.Hydrogen passivation effects in nitrogen-doped ZnO thin films[J].Applied Physics Letters,2005,86:122107-122109. |
| [15] | 黄稳,余洲,刘连,张勇,黄涛,闫勇,赵勇.射频溅射工艺参数对AZO薄膜结构和性能的影响[J].功能材料,2012(12):1553-1555,1560. |
| [16] | Wolden CA;Barnes TM;Baxter JB;Aydil ES .Infrared detection of hydrogen-generated free carriers in polycrystalline ZnO thin films[J].Journal of Applied Physics,2005(4):3522-1-3522-7-0. |
| [17] | Myong SY;Park SI;Lim KS .Improvement of electrical stability of polycrystalline ZnO thin films via intentional post-deposition hydrogen doping[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,2006(1/2):148-151. |
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%