Dependence of wet etch rate on deposition,annealing conditions and etchants for PECVD silicon nitride film 被引量：1

Dependence of wet etch rate on deposition,annealing conditions and etchants for PECVD silicon nitride film

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摘要 The influence of deposition, annealing conditions, and etchants on the wet etch rate of plasma enhanced chemical vapor deposition （PECVD） silicon nitride thin film is studied. The deposition source gas flow rate and annealing temperature were varied to decrease the etch rate of SiNx：H by HF solution. A low etch rate was achieved by increasing the SiH4 gas flow rate or annealing temperature, or decreasing the NH3 and N2 gas flow rate. Concentrated, buffered, and dilute hydrofluoric acid were utilized as etchants for Sit2 and SiNx：H. A high etching selectivity of Sit2 over SiNx：H was obtained using highly concentrated buffered HE The influence of deposition, annealing conditions, and etchants on the wet etch rate of plasma enhanced chemical vapor deposition （PECVD） silicon nitride thin film is studied. The deposition source gas flow rate and annealing temperature were varied to decrease the etch rate of SiNx：H by HF solution. A low etch rate was achieved by increasing the SiH4 gas flow rate or annealing temperature, or decreasing the NH3 and N2 gas flow rate. Concentrated, buffered, and dilute hydrofluoric acid were utilized as etchants for Sit2 and SiNx：H. A high etching selectivity of Sit2 over SiNx：H was obtained using highly concentrated buffered HE

作者唐龙娟朱银芳杨晋玲李艳周威解婧刘云飞杨富华

机构地区 Institute of Semiconductors State Key Laboratory of Transducer Technology

出处《Journal of Semiconductors》 EI CAS CSCD 北大核心 2009年第9期151-154,共4页 半导体学报（英文版）

基金 Project supported by the National High Technology Research and Development Program of China (No.2007AA04Z322) the State Key Development Program for Basic Research of China (No.2009CB320305) the Hundred Talents Plan of Chinese Academy of Sciences

关键词 plasma enhanced chemical vapor deposition silicon nitride HF solution etch rate plasma enhanced chemical vapor deposition silicon nitride HF solution etch rate

分类号 TN304.055 [电子电信—物理电子学] O484.1 [理学—固体物理]

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参考文献14

1Claassen W A P, Valkenburg W G J M, Wijgert W M V D, et al. On the relation between deposition conditions and (mechanical) stress in plasma silicon nitride layers. Thin Solid Films, 1985, 129(3/4): 239.
2Blaauw C. Preparation and characterization of plasmadeposited silicon nitride. J Electrochem Soc, 1984, 131(5): 1114.
3Wright D N, Marstein E S, Rognmo A, et al. Plasma-enhanced chemical vapour-deposited silicon nitride films: the effect of annealing on optical properties and etch rates. Sol Energy Mater Sol Cells, 2008, 92(9): 1091.
4Biasotto C, Diniz J A, Daltrini A M, et al. Silicon nitride thin films deposited by electron cyclotron resonance plasma enhanced chemical vapor deposition for micromechanical system applications. Thin Solid Films, 2008, 516(21): 7777.
5Knotter D M, Denteneer T J J. Etching mechanism of silicon nitride in HF-based solutions. J Electrochem Soc, 2001, 148(3): F43.
6Claassen W A P, Valkenburg W G J M, Willemsen M F C, et al. Influence of deposition temperature, gas pressure, gas phase composition, and RF frequency on composition and mechanical stress of plasma silicon nitride layers. J Electrochem Soc, 1985, 132(4): 893.
7Vernhes R, Zabeida O, Klemberg-Sapieha J E, et al. Pulsed radio frequency plasma deposition of a-SiNx:H alloys: film properties, growth mechanism, and applications. J Appl Phys, 2006, 100(6): 063308.
8Bustarret E, Bensouda M, Habrard M C, et al. Configurational statistics in a-SixNyHz alloys: a quantitative bonding analysis. Phys Rev B: Condens Matter, 1988, 38(12): 8171.
9Mackel H, Ludemann R. Detailed study of the composition of hydrogenated SiNx layers for high-quality silicon surface passivation. J Appl Phys, 2002, 92(5): 2602.
10Robertson J. Defects and hydrogen in amorphous silicon nitride. Philos Mag B, 1994, 69(2): 307.

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1郭文彬.蚀刻简介[J].集成电路应用,2003,20(11):66-68. 被引量：1
2肖方,汪辉,罗仕洲.氮化硅湿法蚀刻中热磷酸的蚀刻率[J].半导体技术,2007,32(10):847-850. 被引量：8
3Gat.,E,蒋旭.温度对钨蚀刻的影响[J].钨钼材料,1998(1):10-12.
4高美珍,张锋,刘静,孙惠娜.Effect of Annealing Conditions on Properties of Sol-Gel Derived Al-Doped ZnO Thin Films[J].Chinese Physics Letters,2009,26(8):366-369.
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6N. All,E. U. Khan,A. Waheed,S. Karim,F. Khan,A. Majeed.Varying Track Etch Rates along the Fission Fragments＇ Trajectories in CR-39 Detectors[J].Chinese Physics Letters,2010,27(5):76-79.
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8YuWei LiuLi-Hui HouHai-Hong DingXue-Cheng HanLi FuGuang-Sheng.Silicon nitride films prepared by helicon wave plasam—enhanced chemical vapour deposition[J].Chinese Physics B,2003,12(5):576-576.
9吴志猛,雷青松,耿新华,赵颖,孙建,奚建平.Optical emission spectroscopy study on deposition process of microcrystalline silicon[J].Chinese Physics B,2006,15(11):2713-2717.
10朱永丹,杨建平,李兴鳌,左安友,袁作彬.等离子体蚀刻多晶硅深沟道研究[J].湖北民族学院学报（自然科学版）,2008,26(2):179-182. 被引量：1

Journal of Semiconductors

2009年第9期

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Dependence of wet etch rate on deposition,annealing conditions and etchants for PECVD silicon nitride film 被引量：1

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