以Ar+SiH4作为反应气体,用电子问旋共振等离子体化学气相沉积(ECR-PECVD)方法制备微晶硅薄膜,研究了微波功率对薄膜中H含量、薄膜的沉积速率、择优取向和结晶度的影响.结果表明,在300℃制备低温微晶硅薄膜,随着微波功率的增大,薄膜的沉积速率先增大后减小,微波功率为600 W时达到最大;而结晶度和薄膜中的H含量则分别呈现单调增大和单调减少的趋势;使用不同的微波功率,薄膜的择优取向均为(111)方向.
参考文献
| [1] | A.Fontcuberta i Morral,J.Bertomeu,P.Roca i Cabarrocas,The role of hydrogen in the formation of microcrystalline silicon,Materials Science and Engineering B,69-70,559(2000) |
| [2] | Michio Kondo,Makoto Fikawa,Lihui Guo,High rategrowth of microcrystalline silicon at low temperatures,Journal of Non-Crytalline Solids,266-269,84(2000) |
| [3] | Rui Huang,Xuanying Lin,Wenyong Huang,Effect of hydrogen on the low temperature growth of polycrystalline silicon film deposited by SiCl4/H2,Thin Solid Films,513,380(2006) |
| [4] | N.H.Nickel,N.M.Johnson,J.Walker,Hydrogen induced generation of acceptorlike defects in polycrystalline silicon,Physical Review Letters,75,3720(1995) |
| [5] | G.Tureban,Y.Catherine,B.Grolleau,Mass spectrometry of a silane glow discharge during plasma deposition of a-Si:H films,Thin Solid Films,67,309(1980) |
| [6] | Liu Guohan,Ding Yi,He Deyan,Investigation of deposition of hydrogenated amorphous silicon thin film with HW-MWECR-CVD system,Acta Energiae Solaris Sinica,27,986(2006) |
| [7] | H.Cheng,A.M.WU,N.L.Shi,L.S.Wen,Effect of Ar on polycrystalline Si films deposited by ECR-PECVD us ing SiH4,Journal of Material Science and Technology,24,690(2008) |
| [8] | B.Strahma,A.A.Howling,L.Sansonnens,Microcrystalline silicon deposited at high rate on large areas from pure silane with efficient gas utilization,Solar Energy Materials & Solar Cells,91,495(2007) |
| [9] | L Sansonnens,A A Howling,Ch Hollenstein,The role of metastable atoms in argon-diluted silane radiofrequency plasmas,J.Phys.D:Appl.Phys,27,1406(1994) |
| [10] | W.J.Soppe,C.Devilee,M.Geusebroek,The effect of argon dilution on deposition of microcrystalline silicon by microwave plasma enhanced chemical vapor deposition,Thin Solid Films,515,7490(2007) |
| [11] | E.Amanatides,S.Stamou,D.Mataras,Gas phase and surface kinetics in plasma enhanced chemical vapor deposition of microcrystalline silicon:The combined effect ofrf power and hydrogen dilution,J.Appl.Phys.,90,5786(2001) |
| [12] | G.Cicalaa,P.Brunob,A.M.Losaccoc,PECVD of hydroogenated diamond-like carbon films from CH4-Ar mixtures:growth chemistry and material characteristics,Diamond and Related Materials,13,1361(2004) |
| [13] | Wen-Chu Hsiao,Chuan-Pu Liu,Ying-Lang Wang,Thermal prosperities of hydrogenated amorphous silicon prepared by high-density plasma chemical vapor depositon,Journal of Physics and Chemistry of Solids,69,648(2008) |
| [14] | Debajyoti Das,Madhusudan Jana,A.K.Barua,Heterogeneity in microcrystalline-transition state:Origin of Sinucleation and microcrystalliaation at higher rf power from Ar-diluted SiH4 plasma,Journal of Applied Physics,89,3041(2001) |
| [15] | G.Ambrosone,U.Coscia,S.Lettieri,Microcrystalline silicon thin films grown at high deposition rate by PECVD,Thin Solid Films,511-512,280(2006) |
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