功能材料
功能材料
공능재료
Journal of Functional Materials
2015年
22期
22067-22070,22075
,共5页
何玉平%黄海宾%周浪%宁武涛%袁吉仁%李丹
何玉平%黃海賓%週浪%寧武濤%袁吉仁%李丹
하옥평%황해빈%주랑%저무도%원길인%리단
HWCVD%a-Si∶H%钝化%ε2%FT-IR%SiHn%微观结构参数R?
HWCVD%a-Si∶H%鈍化%ε2%FT-IR%SiHn%微觀結構參數R?
HWCVD%a-Si∶H%둔화%ε2%FT-IR%SiHn%미관결구삼수R?
HWCVD%a-Si∶H%passivaiton%ε2%FT-IR%SiHn%microstructure parameter R ?
采用 HWCVD 法双面沉积 a-Si∶H 膜钝化n-Cz-Si 片表面,利用光谱型椭偏测试仪和傅里叶红外光谱仪研究沉积气压、电流和热丝衬底间距对 a-Si∶H 薄膜结构及钝化性能的影响.结果表明,(1)薄膜中SiH 2键相对 SiH 键含量随气压升高逐渐减少,随电流增大先减少后增大;(2)热丝衬底间距4.0 cm 相比7.5 cm沉积的 a-Si∶ H 薄膜微观结构中,SiH 2键相比SiH 键的比例更高,钝化效果也更好;(3)本文范围内,工艺参数分别为热丝衬底间距4.0 cm 时气压1.5 Pa,沉积电流21.5 A 情况下钝化效果最优,钝化后硅片的表面复合速率为2.9 cm/s.
採用 HWCVD 法雙麵沉積 a-Si∶H 膜鈍化n-Cz-Si 片錶麵,利用光譜型橢偏測試儀和傅裏葉紅外光譜儀研究沉積氣壓、電流和熱絲襯底間距對 a-Si∶H 薄膜結構及鈍化性能的影響.結果錶明,(1)薄膜中SiH 2鍵相對 SiH 鍵含量隨氣壓升高逐漸減少,隨電流增大先減少後增大;(2)熱絲襯底間距4.0 cm 相比7.5 cm沉積的 a-Si∶ H 薄膜微觀結構中,SiH 2鍵相比SiH 鍵的比例更高,鈍化效果也更好;(3)本文範圍內,工藝參數分彆為熱絲襯底間距4.0 cm 時氣壓1.5 Pa,沉積電流21.5 A 情況下鈍化效果最優,鈍化後硅片的錶麵複閤速率為2.9 cm/s.
채용 HWCVD 법쌍면침적 a-Si∶H 막둔화n-Cz-Si 편표면,이용광보형타편측시의화부리협홍외광보의연구침적기압、전류화열사츤저간거대 a-Si∶H 박막결구급둔화성능적영향.결과표명,(1)박막중SiH 2건상대 SiH 건함량수기압승고축점감소,수전류증대선감소후증대;(2)열사츤저간거4.0 cm 상비7.5 cm침적적 a-Si∶ H 박막미관결구중,SiH 2건상비SiH 건적비례경고,둔화효과야경호;(3)본문범위내,공예삼수분별위열사츤저간거4.0 cm 시기압1.5 Pa,침적전류21.5 A 정황하둔화효과최우,둔화후규편적표면복합속솔위2.9 cm/s.
Bifacial-deposited a-Si ∶ H films were made on n-Cz-Si with different processing parameters by HWCVD,the structure and the passivation effect of a-Si∶H films were analyzed by spectroscopic ellipsometry (SE)and Fourier Transform Infrared Spectroscopy(FT-IR)with different depositing pressure,current,and distance between filament and substrate.The results show that:(1 )Relative content of SiH 2 to SiH bond in films decreases with the pressure increasing,but decreases firstly then increases with current increasing;(2) Compare to 7.5 cm of distance between filament and substrate,the samples of 4.0 cm,proportion of the SiH 2 bond compare to SiH bond is higher,passivation effect is better;(3)Within the scope of this study,the passi-vation effect is optimal with pressure 1.5 Pa,current 21.5 A,distance 7.5 cm,surface recombination velocity 2.9 cm/s.