Study on In Segregation in InN Films Grown by Metal-organic Chemical Vapor Deposition

XU Feng; CHEN Dun-jun; ZHANG Rong; XIE Zi-li; LIU Bin; LIU Qi-jia; JIANG Ruo-lian; ZHEN You

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Study on In Segregation in InN Films Grown by Metal-organic Chemical Vapor Deposition

更新时间：2020-08-12

- Study on In Segregation in InN Films Grown by Metal-organic Chemical Vapor Deposition
- Chinese Journal of Luminescence Vol. 29, Issue 5, Pages: 851-855(2008)
- 作者机构：
  
  南京大学物理系, 江苏省光电功能材料重点实验室,江苏南京,210093
- 作者简介：
- 基金信息：
- DOI：
  CLC： O472.1
- Received：25 December 2007，
  
  Revised：25 January 2008，
  
  Published：20 September 2008
- 稿件说明：
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徐峰, 陈敦军, 张荣, 谢自力, 刘斌, 刘启佳, 江若涟, 郑有阧. MOCVD生长的InN薄膜中In分凝现象[J]. 发光学报, 2008,29(5): 851-855

XU Feng, CHEN Dun-jun, ZHANG Rong, XIE Zi-li, LIU Bin, LIU Qi-jia, JIANG Ruo-lian, ZHEN You-liao. Study on In Segregation in InN Films Grown by Metal-organic Chemical Vapor Deposition[J]. Chinese Journal of Luminescence, 2008,29(5): 851-855
徐峰, 陈敦军, 张荣, 谢自力, 刘斌, 刘启佳, 江若涟, 郑有阧. MOCVD生长的InN薄膜中In分凝现象[J]. 发光学报, 2008,29(5): 851-855 DOI：

XU Feng, CHEN Dun-jun, ZHANG Rong, XIE Zi-li, LIU Bin, LIU Qi-jia, JIANG Ruo-lian, ZHEN You-liao. Study on In Segregation in InN Films Grown by Metal-organic Chemical Vapor Deposition[J]. Chinese Journal of Luminescence, 2008,29(5): 851-855 DOI：

摘要

利用金属有机物化学气相淀积(MOCVD)方法不同生长条件下在c面蓝宝石衬底上制备了InN薄膜

通过不同的物理表征手段研究了InN薄膜的物理性质

结果表明:合适的生长温度可以抑制InN薄膜表面分凝现象.研究认为较低的生长温度使作为N源的NH

分解率较低

In-N的成键可能性小

导致In在表面聚集出现分凝;而较高生长温度时

InN薄膜中In-N键能较小

易发生断裂

反应活性较强的N和H原子逸离薄膜表面

In滞留在薄膜表面也导致In分凝现象的出现.相对于表面分凝的样品

未出现表面分凝的样品的薄膜晶体质量和表面形貌也得到了提高.同时

通过Raman散射谱研究了晶格振动E

声子模的应力效应.

Abstract

InN materials have been attracting a lot of attention for its prominent application in electronic and optical devices

compared with GaN and AlN

InN has smaller effective mass and higher electron drift velocity.However

the growth difficulties due to low growth temperature and lack of lattice-matched substrate restricted the evolution of InN-based devices

more and more efforts are made in efficiently deposit InN films with better quality.InN films were synthesized on the(0001) sapphire substrates at different growth temperatures by metal organic chemical vapor deposition(MOCVD)

the growth source materials are trimethy lindium(TMI)

trimethy lgallium(TMG) and ammonia(NH

).The physical properties of the films were characterized by a series of measurements.We fully studied the characteristic of InN films by various methods

such as X-ray diffraction(XRD)

atomic force microscope(AFM)

X-ray photoelectron spectroscopy(XPS) and Raman measurements.It's well known that the growth temperature is one of the most important parameters in growth of InN films

so in our study

we focus our attention mainly on the effect of growth temperature.It was found that 600℃ is a suitable growth temperature for InN films

the suitable temperature can inhibit the surface segregation phenomenon of In on the surface of InN films.But at a lower or higher temperature it will lead to a surface segregation of In on the InN films.The crystalline quality and morphology of the surface for the sample without surface segregation have been improved compared with the samples with surface segregation.In addition

it was also found that the residual strain in InN films increased with increasing growth temperature by Raman analysis

the E

(high) model frequency shift toward high frequency with increasing growth temperature

and this shift is due to the presence of residual thermal strain in the InN film.When the growth temperature is lower

the residual thermal strain came into being due to the different thermal expand coefficient between the epitaxial-film and the sapphire substrate.The residual thermal strain is biaxial strain

which can be expressed as:ε

)(α

sub

-α

film

)

are the growth and room temperature

sub

film

are the thermal expand coefficient of sapphire substrate and InN film

respectively.The relation between E2(high) model frequency and residual thermal strain can be expressed as:ω=20ε

+479(cm

-1

)

which fit from the result of Raman analysis

where ω is the E

(high) model frequency

and ε

is the residual biaxial thermal strain.

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Related Institution

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