硼源浓度对纳米金刚石薄膜掺硼的影响

表面技术 , 2014, (3): 6-24.

硼源浓度对纳米金刚石薄膜掺硼的影响

熊礼威 ^1, , 崔晓慧 ^2, , 汪建华 ^3, , 龚国华 ^4, , 邹伟 ^5,

1.武汉工程大学材料科学与工程学院，武汉430074; 湖北省等离子体化学与新材料重点实验室，武汉430074

2.武汉工程大学材料科学与工程学院，武汉430074; 湖北省等离子体化学与新材料重点实验室，武汉430074

3.武汉工程大学材料科学与工程学院，武汉430074; 湖北省等离子体化学与新材料重点实验室，武汉430074

4.武汉工程大学材料科学与工程学院，武汉430074; 湖北省等离子体化学与新材料重点实验室，武汉430074

5.武汉工程大学材料科学与工程学院，武汉430074; 湖北省等离子体化学与新材料重点实验室，武汉430074

基金项目: 湖北省教育厅科学技术研究项目(Q20121501) Scientific Research Fund of Wuhan Institute of Technology(11111051) 武汉工程大学科学研究基金(11111051)Fund:National Natural Science Foundation of China(11175137) Science and Technology Research Projects of Hubei Provincial Department of Education(Q20121501) 国家自然科学基金项目(11175137)

关键词：纳米金刚石薄膜 , 掺硼 , 硼源浓度 , 化学气相沉积

Influence of Borane Concentration on the Boron-doping of Nano-crystalline Diamond Films

Keywords： nano-crystalline diamond film , doping boron , boron concentration , chemical vapor deposition

目的：研究纳米金刚石薄膜生长掺硼的内在机理,实现对该过程的精确控制。方法采用微波等离子体化学气相沉积法,以氢气稀释的乙硼烷为硼源,进行纳米金刚石薄膜的生长过程掺硼实验,研究硼源浓度对掺硼纳米金刚石薄膜晶粒尺寸、表面粗糙度、表面电阻和表面硼原子浓度的影响。结果随着硼源浓度的增加,纳米金刚石薄膜的表面粗糙度和晶粒尺寸增大,表面电阻则先下降,而后趋于平衡。结论纳米金刚石薄膜掺硼后,表面电导性能可获得改善,表面粗糙度和晶粒尺寸则会增大。在700℃条件下掺硼15 min,最佳的硼源浓度(以硼烷占总气体流量的百分比计)为0.02%。

Objective In order to study the intrinsic mechanism of doping borane during the growth of nano-crystalline diamond films to achieve precise control of the process. Methods Nano-crystalline diamond ( NCD) films were boron doped by the micro-wave plasma enhanced chemical vapor deposition ( MPCVD) method using hydrogen diluted di-borane as boron source. The influ-ences of borane concentration on grain size, surface roughness, surface resistance and boron atom concentration of boron-doped NCD films were investigated. Results The surface roughness and grain size of nanocrystalline diamond films increased with increas-ing concentrations of boron source. The surface resistance first showed a downward trend with increasing boron concentrations, and then gradually reached equilibrium. Conclusion The results showed that doping of boron could improve the surface conductivity performance of nano-crystalline diamond films and increase its surface roughness and grain size. By comprehensive comparison, the optimal borane concentration was 0. 02% under the doping condition of 700 ℃ and 15 min.

参考文献

[1]	S.G. Wang;Q. Zhang;S.F. Yoon .Preparation and electron field emission properties of nano-diamond films[J].Materials Letters,2002(6):948-951.
[2]	ZIMMERMANN T;KUBOVIC M;DENISENKO A et al.Ultra-nano-crystalline/Single Crystal Diamond Heterostructure Diode[J].Diamond and Related Materials,2005,14:416-420.
[3]	S.J. Askari;G.C. Chen;F. Akhtar .Adherent and low friction nano-crystalline diamond film grown on titanium using microwave CVD plasma[J].Diamond and Related Materials,2008(3):294-299.
[4]	H. Sumiya;T. Irifune .Indentation hardness of nano-polycrystalline diamond prepared from graphite by direct conversion[J].Diamond and Related Materials,2004(10):1771-1776.
[5]	H. El-Hajj;A. Denisenko;A. Kaiser .Diamond MISFET based on boron delta-doped channel[J].Diamond and Related Materials,2008(7/10):1259-1263.
[6]	POTOCKY S;KROMKA A;POTSEMIL J et al.Investigation of Nanocrystalline Diamond Films Grown on Silicon and Glass at Substrate Temperature Below 400 ℃[J].Diamond and Related Materials,2007,16:744-747.
[7]	熊礼威,崔晓慧,汪建华,张莹,易成,吴超,张林.纳米金刚石薄膜的应用及其研究进展[J].表面技术,2013(05):98-102,111.
[8]	Oliver A. Williams;Milos Nesladek .Growth and properties of nanocrystalline diamond films[J].Physica Status Solidi, A. Applied Research,2006(13):3375-3386.
[9]	O.A. Williams;M. Nesladek;M. Daenen .Growth, electronic properties and applications of nanodiamond[J].Diamond and Related Materials,2008(7/10):1080-1088.
[10]	ASKARI S J;AKHTAR F;CHEN G C et al.Synthesis and Characterization of Nano-crystalline CVD Diamond Film on Pure Titanium Using Ar/CH4/H2 Gas Mixture[J].Materi-als Letters,2007,61:2139-2142.
[11]	C.J. Tang;S.M.S. Pereira;A.J.S. Fernandes;A.J. Neves;J. Gracio;I.K. Bdikin;M.R. Soares;LS. Fu;L.P. Gu;A.L. Kholkin;M.C. Carmo .Synthesis and structural characterization of highly < 100 > -oriented {100}-faceted nanocrystalline diamond films by microwave plasma chemical vapor deposition[J].Journal of Crystal Growth,2009(8):2258-2264.
[12]	N.A. Braga;C.A.A. Cairo;E.C. Almeida .From micro to nanocrystalline transition in the diamond formation on porous pure titanium[J].Diamond and Related Materials,2008(11):1891-1896.
[13]	Sathyaharish Jeedigunta;Zhenqing Xu;Makoto Hirai .Effects of plasma treatments on the nitrogen incorporated nanocrystalline diamond films[J].Diamond and Related Materials,2008(12):1994-1997.
[14]	Alastair Stacey;Igor Aharonovich;Steven Prawer .Controlled synthesis of high quality micro/nano-diamonds by microwave plasma chemical vapor deposition[J].Diamond and Related Materials,2009(1):51-55.
[15]	Nobuteru Tsubouchi;M. Ogura;N. Mizuochi .Electrical properties of a B doped layer in diamond formed by hot B implantation and high-temperature annealing[J].Diamond and Related Materials,2009(2/3):128-131.
[16]	熊礼威,汪建华,满卫东,曹菊琴,谢鹏.基片温度对金刚石厚膜生长的影响[J].武汉工程大学学报,2008(01):83-86.

上一张下一张

计量

下载量()
访问量()

作者相关

文章评分

您的评分：
1

0%
2

0%
3

0%
4

0%
5

0%

材料期刊网