Quantitative Study of the Evolution of Oxygen and Vacancy Complexes in Czochralski Silicon
スポンサーリンク
概要
- 論文の詳細を見る
- 2012-02-25
著者
-
Chen Peng
State Key Lab. Of Millimeter Waves School Of Inf. Sci. And Eng. Southeast University
-
YANG Deren
State Key Lab of Si Materials, Zhejiang University
-
Yu Xuegong
State Key Lab Of Silicon Materials Zhejiang University
-
Chen Peng
State Key Laboratory Of Silicon Materials And Department Of Materials Science And Engineering Zhejiang University
-
CHEN Lin
State Key Laboratory of Silicon Materials and Department of Materials Science and Engineering, Zhejiang University
-
Chen Lin
State Key Laboratory Of Silicon Materials And Department Of Materials Science And Engineering Zhejiang University
-
Yu Xuegong
State Key Laboratory Of Silicon Materials And Department Of Materials Science And Engineering Zhejiang University
-
Yang Deren
State Key Laboratory Of Silicon Materials And Department Of Materials Science And Engineering Zhejiang University
関連論文
- Dislocation Formation in Czochralski Si Crystal Growth Using an Annealed Heavily B-Doped Si Seed
- Highly Conductive p-Type Silicon Carbon Alloys Deposited by Hot-Wire Chemical Vapor Deposition
- Effect of Rapid Thermal Process on Oxygen Precipitation in Heavily Boron-Doped Czochralski Silicon Wafer
- Bipolar Structure in Thermally Treated Czochralski Silicon Wafer
- SIW-Like Guided Wave Structures and Applications
- Effect of Nitrogen Doping on Oxygen Precipitate Profiles in Czochralski Silicon Wafer
- Quantitative Study of the Evolution of Oxygen and Vacancy Complexes in Czochralski Silicon
- Crystal Growth of Indium-Doped Czochralski Silicon for Photovoltaic Application
- Dislocation Formation in Czochralski Si Crystal Growth Using an Annealed Heavily B-Doped Si Seed
- Improving the Solar Cell Module Performance by a Uniform Porous Antireflection Layer on Low Iron Solar Glass
- Crystallization and Raman Shift of Array-Orderly Silicon Nanowires after Annealing at High Temperature
- First-Principles Study of Interstitial Boron and Oxygen Dimer Complex in Silicon
- Grown-in Defects in Heavily Boron-Doped Czochralski Silicon
- Improving the Solar Cell Module Performance by a Uniform Porous Antireflection Layer on Low Iron Solar Glass
- Improving the Solar Cell Module Performance by a Uniform Porous Antireflection Layer on Low Iron Solar Glass