以Ar、CH4和CO2为反应气源,以三聚氰胺的甲醇饱和溶液为掺杂源,用微波等离子体化学气相沉积法在单晶硅基体上制备了掺氮的金刚石薄膜;用原子力显微镜,拉曼光谱以及霍尔效应测试仪等手段表征了膜的组成结构和半导体特性.结果表明:掺氮的金刚石薄膜晶粒平均尺寸约为20 nm,表面粗糙度约为8.935 nm,其拉曼光谱为典型的纳米金刚石膜特征峰形;掺氮膜材的电导率高达0.76×102Ω-1cm-1,载流子浓度达到2.18×1019/cm3,是一种导电性能优良的n型半导体纳米金刚石膜.
参考文献
| [1] | S.Bhattacharyya,O.Auciello,J.Birrell,J.A.Curties,A.N.Goyette,D.M.Gruen,A.R.Krauss,J.Schlueter,A.Sumant,P.Zapol,Synthesis and characterization of highly-conducting nitrogen-doped ultrananocrystalline diamond films,Applied Physics Letters,79(10),1441(2001) |
| [2] | ZHOU Jian,FU Wenbin,YUAN Runzhang,MPC'VD Diamond films (Beijing,The Press of Chian Building Materials Industry,2002) p.28(周健,傅文斌,袁润章,微波等离子体化学气相沉积金刚石膜(北京,中国建材工业出版社,2002)p.28) |
| [3] | James Birrell.Highly conductive ultranocrystalline diamond thin films via nitrogen incorporation,PHD,University of Illinois at Urbane-Champaign,2003 |
| [4] | James Birrell,O.Auciello,J.M.Gibson,D.M.Gruen,J.A.Carlisle.Bonding structure in nitrogen doped ultrananocrystalline diamond,Journal of Applied Physics,3(1),5606(2003) |
| [5] | O.Kano,S.Koizumi,S.Ravi,P.Silva,G.A.J.Amaratunga,Low-threshold cold cathodes made of nitrogen-doped chemical-vapour-deposited diamond,Nature,140,381(1996) |
| [6] | James Birrell,J.A.Carlisle,O.Auciello,D.M.Gruen,J.M.Gibsen,Morphology and electronic structure in nitrogen-doped ultrananocrystalline diamond,Applied Physics Letters,81(12),2235(2002) |
| [7] | SUN Lei,MAN Weidong,WANG Jiaanhua,XIE Peng,XIONG Liwei,LI Yuan,Development of synthesizing CVD diamond films for semiconductor materials,Vacuum & Cryogenics,14(3),134(2008)(孙蕾,满卫东,汪建华,谢鹏,熊礼威,李远,CVD金刚石薄膜半导体材料的研究进展,真空与低温,14(3),134(2008)) |
| [8] | C.Popov,G.Favaro,W.Kulisch,J.P.Reithmaier,Influence of the nucleation density on the structure and mechanical properties of ultrananocrystalline diamond films,Diamond and Related Materials,18(2-3),151(2009) |
| [9] | Minseo Park.Nitrogen Doping Optical Characterization and Electron Emission Study of Diamond,PHD,North Carolina State University(1998) |
| [10] | A.N.Goyette,J.E.Lawler,L.W.Anderson,D.M.Gruen,T.G.McCauley,D.Zhou,A.R.Krauss,Spectroscopic determination of carbon dimer densities in Ar-H2-CH4 and Ar-H2-C60 plasmas,Journal of Applied Physics,3(1),1975(1998) |
| [11] | Andrea C.Ferrari,John Robertsen,Raman spectroscopy in carbons:from Nanotubes ti Diamond (Beijing,The Press of Chemical Industry,2007) p.245(安德里亚·卡罗·费拉里,约翰·罗伯逊,碳材料的拉曼光谱:从纳米管到金刚石(北京,化学工业出版社,2007)p.245) |
| [12] | A.C.Ferrari,J.Robertson,Origin of the 1150 cm-1 Raman mode in nanocrystalline diamond,Physical Review B,63(12),1-4(2001) |
| [13] | Isao Sakaguchi,Mikka N.Gamo,Yuko Kikuchi,Eiji Yasu,Hajime Haneda,Toshimitsu Suzuki and Toshihiro Ando.Sulfur:A donor dopant for n-type diamond semiconductors,Physical Review B,5(15),2139(1999) |
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