2019年中国光伏技术发展报告(4)Report on 2019 China PV technology development(part 4)
摘要(Abstract):
<正>1.5.4CdTe薄膜太阳电池发展趋势的展望CdTe薄膜太阳电池的小面积器件转换效率达到了22.1%,但与其理论转换效率28%相比,还有较大差距,因此未来还有较大的提升空间。若能显著提高CdTe薄膜的少子寿命,同时降低各个界面的复合速率,解决好低电阻的欧姆接触等问题,在不久的未来,CdTe薄膜太阳电池应该能实现转换效率超过25%的目标。
关键词(KeyWords):
基金项目(Foundation):
作者(Author):
参考文献(References):
- [105]LANG R,SCH?N J,DIMROTH F,et al.Optimization of Ga As solar cell performance and growth efficiency at MOVPE growth rates of 100 mm/h[J].IEEE journal of photovoltaics,2018,8:1-5.
- [106]The National Renewable Energy Laboratory[EB/OL].(2018-07-17).https://www.nrel.gov/pv/assets/pdfs/pvefficiencies-07-17-2018.pdf.
- [107]NIKHIL J,KEVIN L S,JOHN F G,et al.High-efficiency inverted metamorphic 1.7/1.1 eV Ga In As P/Ga In As dualjunction solar cells[J].Applied physics letters,2018,112(5):053905.
- [108]Micr Link Devices.Micro Link Devices achieves certified37.75%solar cell power conversion efficiency[EB/OL].(2018-06-18).http://www.mldevices.com/index.php/news/67-microlink-devices-achieves-certified-37-75-solar-cell-powerconversion-efficiency-microlink-devices-achieves-certified-37-75-solar-cell-power-conversion-efficiency.
- [109]STEPHANIE E,CHRISTOPHE A,TIMOTHY R,et al.Raising the one-sun conversion efficiency of III-V/Si solar cells to 32.8%for two junctions and 35.9%for three junctions[J].Nature energy,2017,2:17144.
- [110]CARIOU R,et al.Wafer bonded III/V on silicon multijunction cell with efficiency beyond 31%[C]//Gantner Instruments Environment Solutions Gmb H:44th IEEEPhotovoltaic Specialist Conference,Washington,DC,USA,25-30 June 2017,p 3186-3986.
- [111]STEPHANIE E,JAN B,et al.Wafer-bonded Ga In P/Ga As//Si solar cells with 30%efficiency under concentrated sunlight[J].IEEE journal of photovoltaics,2015,3(5):977-981.
- [112]KURTZ S R,MYERS D,OLSON J M.Projected performance of three-and four-junction devices using Ga As and Ga In P[C]//Institute of Electrical and Electronics Engineers:26th IEEE Photovoltaic Specialists Conference,September 29-October 3,1997,Anaheim,California,1997.
- [113]DANIEL D,JONES-ALBERTUS R,SUAREZ F,et al.Lattice-matched multijunction solar cells employing a 1 e VGa In NAs Sb bottom cell[J].Journal of photonics for energy,2012,2:021805.
- [114]CHIU P T,LAW D L,WOO R L,et al.35.8%space and 38.8%terrestrial 5J direct bonded cells[C]//Institute of Electrical and Electronics Engineers:40th IEEE Photovoltaic Specialist Conference,June 8-13,2014,Denver,11-13,2014.
- [115]张梦炎,郭振,孙利杰,等.大面积、高性能柔性Ga In P/Ga As/In Ga As叠层太阳电池的制备[J].红外与毫米波学报,2018,37(5):518-522.
- [116]铁剑锐,李晓东,孙希鹏.高效超薄空间用三结砷化镓太阳电池研制[J].电源技术42,2018,8:1174-1176.
- [117]马大燕,陈诺夫,付蕊,等.Ga In P/Ga As/In Ga As倒装三结太阳电池设计与优化[J].太阳能学报,2018,39(4):550-557.
- [118]LEI P H,CHEN I J,CHEN J J,et al.Using spin-coated silver nanoparticles/zinc oxide thin films to improve the efficiency of Ga In P/(In)Ga As/Ge solar cells[J].Materials,2018,11(6):1020.
- [119]SU Z C,XU S,WANG X H,et al.Effective photon recycling and super long lived minority carriers in Ga In P/Ga As heterostructure solar cell:A time-resolved optical study[J].IEEE journal of photovoltaics,2018,3(8):820-824.
- [120]ZHAO B,XIAN S T,HUOW X,et al.Characteristics of In Ga P/Ga As double junction thin film solar cells on a flexible metallic substrate[J].Solar energy,2018,174:703-708.