2019年中国光伏技术发展报告(3)Report on 2019 China PV technology development (part 3)
中国可再生能源学会光伏专业委员会
摘要(Abstract):
<正>1.4.2 CZTS基薄膜太阳电池研究的国际进展1.4.2.1研究进展2018年CZTS基太阳电池仍受到持续关注,在基础研究和电池转换效率方面都有较大进展。新南威尔士大学通过对CZTS/CdS异质结进行退火处理,获得转换效率为11.01%的纯硫化物CZTS太阳电池,同时在超过1.113 cm~2的面积上实现了10.04%的转换效率,大幅提高了纯硫化物CZTS太阳电池的世界纪录~([58])。另外,南
关键词(KeyWords):
基金项目(Foundation):
作者(Author): 中国可再生能源学会光伏专业委员会
参考文献(References):
- [58]YAN C,HUANG J,SUN K,et al.Cu2ZnSnS4 solar cells with over 10%power conversion efficiency enabled by heterojunction heat treatment[J].Nature energy,2018,3(9):764.
- [59]HADKE S H,LEVCENKO S,LIE S,et al.Synergistic effects of double cation substitution in solution-processed CZTS solar cells with over 10%efficiency[J].Advanced energy materials,2018:1802540.
- [60]KIM S Y,RANA T R,KIM J H,et al.Limiting effects of conduction band offset and defect states on high efficiency CZTSSe solar cell[J].Nano energy,2018,45:75-83.
- [61]ANTUNEZ P D,LI S,BISHOP D M,et al.Passivation and thickness control of highly efficient kesterite solar cells[J].Applied physics letters,2018,113(3):033903.
- [62]LIE S,TAN J M R,LI W,et al.Reducing the interfacial defect density of CZTSSe solar cells by Mn substitution[J].Journal of materials chemistry A,2018,6(4):1540-1550.
- [63]PINTO A H,SHIN S W,SHARMA A,et al.Synthesis o f C u2(Z n1-xCox)SnS4 nanocrystals and formation of polycrystalline thin films from their aqueous dispersions[J].Journal of materials chemistry A,2018,6(3):999-1008.
- [64]AGAWANE G L,VANALAKAR S A,KAMBLE A S,et al.Fabrication of Cu2(ZnxMg1-x)SnS4 thin films by pulsed laser deposition technique for solar cell applications[J].Materials science in semiconductor processing,2018,76:50-54.
- [65]CUI X,SUN K,HUANG J,et al.Enhanced heterojunction interface quality to achieve 9.3%efficient Cd-free Cu2ZnSnS4 solar cells using ALD ZnSnO buffer layer[J].Chemistry of materials,2018,10(21):8b03398.
- [66]HAASS S G,ANDRES C,FIGI R,et al.Complex interplay between absorber composition and alkali doping in highefficiency kesterite solar cells[J].Advanced energy materials,2018,8(4):1701760.
- [67]AQT Solar将商业化铜锌锡硫光伏电池[J].中国有色冶金,2012(2):90.
- [68]ZHANG P,YU Q,MIN X,et al.Fabrication of Cu2ZnSn(S,Se)4 photovoltaic devices with 10%efficiency by optimizing the annealing temperature of precursor films[J].RSCadvances,2018,8(8):4119-4124.
- [69]WEI Y,ZHUANG,ZHAO M,et al.Pre-deposition of CdS layers to improve the diode quality of CZTSSe solar cells[J].Materials letters,2018,229:372-374.
- [70]SUN R,ZHUANG D,ZHAO M,et al.Beyond 11%efficient Cu2ZnSn(Se,S)4 thin film solar cells by cadmium alloying[J].Solar energy materials and solar cells,2018,174:42-49.
- [71]苏正华,梁广兴,范平.转换效率12.3%的纯硫化物CZTS薄膜太阳电池[C]//中国可再生能源学会光化学专委员会.第五届新型太阳电池学术研讨会摘要集.北京,2018:360.
- [72]LI X,HOU Z,GAO S,et al.Efficient Optimization of the performance of Mn-2+-doped kesterite solar cell:Machine learning aided synthesis of high efficient Cu2(Mn,Zn)Sn(S,Se)4 solar cells[J].Solar RRL,2018,10(2):1800198.
- [73]ZHANG J,LIAO J,SHAO L,et al.Effect of Fe content on Cu2FexZn1-x SnS4 single crystals fabricated by flux growth method[J].Journal of physics D:applied physics,2018,51:295107.
- [74]GREEN M A,HISHIKAWA Y,DUNLOP E D,et al.Solar cell efficiency tables(version 51)[J].Progress in photovoltaics:Research and applications,2018(26)3-12.
- [75]GEISTHARDT R M,TOPIC M,SITES J R,Status and potential of cdte solar-cell efficiency[J].IEEE journal of photovoltaics,2015(5):1217-1221.
- [76]BURST J M,DUENOW J N,ALBIN D S,et al.CdTe solar cells with open-circuit voltage breaking the 1V barrier[J].Nature energy,2016(15):7.
- [77]C O L E G R O V E E,YA N G J H,H A RV E Y S P,e t a l.Experimental and theoretical comparison of Sb,As,and Pdiffusion mechanisms and doping in CdTe[J].Journal of physics D:Applied physics,2018(51):1361-6463.
- [78]MC CANDLESS B E,BUCHANAN W A,THOMPSONC P,et al.Overcoming carrier concentration limits in polycrystalline CdTe thin films with in situ doping[R],Scientific reports,2018(8).
- [79]AMARASINGHE M,COLEGROVE E,MOSELEY J,et al.Obtaining large columnar CdTe grains and long lifetime on nanocrystalline CdSeMgZnO or CdS layers[J].Advanced energy materials,2018,10:1702666.
- [80]MUNSHI AH,KEPHART J M,ABBAS A,et al.Polycrystalline CdTe photovoltaics with efficiency over18%through improved absorber passivation and current collection[J].Solar energy materials and solar cells,2018,176:9-18.
- [81]KEPHART J M,KINDVALL A,WILLIAMS D,et al.Sputter-deposited oxides for interface passivation of CdTe photovoltaics[J].IEEE journal of photovoltaics,2018(1):587-593.
- [82]KEPHART,J M.Novel Approach to Front Contact Passivation for CdTe Photovoltaics[R].USA,2018.
- [83]ABLEKIM T,COLEGROVE E,METZGER W K.Interface engineering for 25%CdTe solar cells[J].ACS applied energy materials,2018,9:801173.
- [84]KUCIAUSKAS D,KEPHART J M,MOSELEY J,et al.Recombination velocity less than 100 cm/s at polycrystalline Al2O3/Cd Se Te interfaces[J].Applied physics letters,2018,6:112.
- [85]PERKINS C L,ABLEKIM T,BARNEST M,et al.Interfaces between CdTe and ALD Al2O3[J].IEEE journal of photovoltaics,2018,8:1858-1861.
- [86]AGUIRRE R,CHAVEZ J J,LI J,et al.Crystal growth and atom diffusion in(Cu)ZnTe/CdTe via molecular dynamics[J].IEEE journal of photovoltaics,2018,8:594-599.
- [87]WATTHAGE S C,PHILLIPS A B,LIYANAGE G K,et al.Selective Cd removal from CdTe for high-efficiency te back-contact formation[J].IEEE journal of photovoltaics,2018,8:1125-1131.
- [88]SONG T,MOORE A,SITES J R.Te layer to reduce the CdTe back-contact barrier[J].IEEE journal of photovoltaics,2018,8:293-298.
- [89]SUBEDI K K,BASTOLA E,SUBEDI I,et al.Nanocomposite(CuS)(x)(ZnS)(1-x)thin film back contact for CdTe solar cells:Toward a bifacial device[J].Solar Energy materials and solar cells,2018,186:227-235.
- [90]REN S,TANG T,LIU Y,et al.Annealing atmosphere effects on the surface properties of Cd2SnO4 thin films obtained by RF sputtering[J].Materials science in semiconductor processing,2018,75:269-275.
- [91]WANG T,REN S,LI C,et al.Exploring window buffer layer technology to enhance CdTe solar cell performance[J].Solar energy,2018,164:180-186.
- [92]FANG X,REN S,LI C,et al.Investigation of recombination mechanisms of CdTe solar cells with different buffer layers[J].Solar energy materials and solar cells,2018,188:93-98.
- [93]LI C,WANG F,CHEN Y,et al.Characterization of sputtered CdSe thin films as the window layer for CdTe solar cells[J].Materials science in semiconductor processing,2018,83:89-95.
- [94]REN S,WANG H,LI Y,et al.Rapid thermal annealing on ZnMgO window layer for improved performance of CdTe solar cells[J].Solar energy materials and solar cells,2018,187:97-103.
- [95]REN S,LI H,LEI C,et al.Interface modification to enhance electron extraction by deposition of a ZnMgO buffer on SnO2-coated FTO in CdTe solar cells[J].Solar energy,2019,177:545-552.
- [96]HU D,LIU D,ZHANG J,et al.Preparation and stability study of broadband anti-reflection coatings and application research for CdTe solar cell[J].Optical materials,2018,77:132-139.
- [97]CHEN G,HU D,LI C,et al.Process study about silica antireflection coatings prepared by sol-gel method for cadmium telluride solar cells[J].Journal of materials science,2018,53:15588-15599.
- [98]LI C,CHEN G,WANG W,et al.Grain boundary passivation by CdCl2 treatment in CdTe solar cells revealed by Kelvin probe force microscopy[J].Journal of materials science:materials in electronics,2018,29:20718-20725.
- [99]BI X,LUO G,LI W,et al.Bi-containing reduced graphene oxide for CdTe solar cells[J].Solar energy,2018,170:820-827.
- [100]LI C,XU H,LI K,et al.CuTe nanoparticles/carbon nanotubes as back contactfor CdTe solar cells[J].Journal of electronic materials,2018,47:1250-1258.
- [101]ZHANG M,QIU L,LI W,et al.Copper doping of MoOx thin films for CdTe solar cells[J].Materials science in semiconductor Processing,2018,86:49-57.
- [102]WANG M,LI X,WANG D.Ultrathin CdTe solar cells with absorber layer thinner than 0.2 microns[J].European physical journal-applied physics,2018,2:83.
- [103]WANG D,YANG R,WU L,et al.Band alignment of CdTe with MoOx oxide and fabrication of high efficiency CdTe solar cells[J].Solar energy,2018,162:637-645.
- [104]LI Q,SHEN K,LI X,et al.Space-charge limited current in CdTe thin film solar cell[J].Applied physics letters,2018,112:173901.