摘要
采用射频等离子体增强化学气相沉积法,制备了掺硼和掺磷的氢化纳米硅薄膜(nc-Si∶H),并将其应用于纳米硅薄膜类叠层太阳电池中。分析了薄膜样品的光学性能及表面形貌,结果表明:P型掺硼纳米硅薄膜的光学带隙为2.189 eV,电导率为8.01 S/cm,霍尔迁移率为0.521 cm2/(V.S),载流子浓度为9.61×1019/cm3;N型掺磷纳米硅薄膜的光学带隙为1.994 eV,电导率为1.93 S/cm,霍尔迁移率为1.694 cm2/(V.S),载流子浓度为7.113×1018/cm3;两者的晶粒尺寸都在3~5 nm之间,晶态比都在35%~45%之间,并且颗粒沉积紧密,大小比较均匀。制备了大小为20 mm×20 mm,结构为Al/AZO/p-nc-Si∶H/i-nc-Si∶H/n-nc-Si∶H/p-nc-Si∶H/i-nc-Si∶H/n-c-Si/Al背电极的纳米硅薄膜类叠层太阳电池,通过I-V曲线测试,其VOC达到544.3 mV,ISC达到85.6 mA,填充因子为65.7%。
Boron-doped and phosphorus-doped thin films(nc-Si∶H)were deposited by RF-PECVD system and applied to fabricate analogue tandem solar cells.The optical performance and morphology of the thin film sample were analyzed.The results showed that the optical band gap,conductivity,hall mobility and carrier concentration of P-type nc-Si∶H thin films were 2.189 eV,8.01 S/cm,0.521 cm^2/(V·S) and 9.61×1019/cm3,respectively and those of N-type nc-Si∶H thin films were 1.994 eV,1.93 S/cm,1.694 cm^2/(V·S)and 7.113×10^18/cm^3,respectively.Nanocrystalline grain size was approximate 3~5 nm and crystal volume fraction was within 35%~45%.The grain deposition was density and it had more uniform size.The analogue tandem solar cells with the structure of Al/AZO/p-nc-Si∶H/i-nc-Si∶H/n-nc-Si∶H/p-nc-Si∶H/i-nc-Si∶H/n-c-Si/Al were prepared in an area of 20 mm×20 mm and achieved the maximum open-circuit voltage VOC,short-circuit current ISC and fill factor of 544.3 mV,85.6 mA and 65.7%,respectively.
出处
《表面技术》
EI
CAS
CSCD
北大核心
2013年第3期5-8,共4页
Surface Technology
基金
863计划资助项目(2012AA050304)
关键词
RF-PECVD
掺硼
掺磷
纳米硅薄膜
类叠层太阳电池
RF-PECVD
Boron-doped
phosphorus-doped
nanocrystalline silicon film
analogue tandem solar cell
作者简介
孙月峰(1987-),男,山东德州人,硕士生,主攻光电材料及纳米硅薄膜太阳电池。
[通信作者]张维佳(1957-),男,四川成都人,博士生导师,教授,主攻光电材料及纳米硅薄膜太阳电池。
