深能级瞬态光谱
锭
材料科学
载流子寿命
硅
镓
薄脆饼
兴奋剂
掺杂剂
晶体缺陷
光电子学
分析化学(期刊)
光电导性
化学
结晶学
冶金
合金
色谱法
作者
Yohan Yoon,Yixin Yan,N.P. Ostrom,Jinwoo Kim,G. A. Rozgonyi
摘要
Continuous-Czochralski (c-Cz) crystal growth has been suggested as a viable technique for the fabrication of photovoltaic Si wafers due to its low resistivity variation of any dopant, independent of segregation, compared to conventional Cz. In order to eliminate light induced degradation due to boron-oxygen traps in conventional p-type silicon wafers, gallium doped wafers have been grown by c-Cz method and investigated using four point probe, deep level transient spectroscopy (DLTS), and microwave-photoconductance decay. Iron-gallium related electrically active defects were identified using DLTS as the main lifetime killers responsible for reduced non-uniform lifetimes in radial and axial positions of the c-Cz silicon ingot. A direct correlation between minority carrier lifetime and the concentration of electrically active Fe-Ga pairs was established.
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