基于AFORS-HET的单层MoS2(n)/a-Si(i)/c-Si(p)/μc-Si(p+)异质结太阳能电池模拟
[1] Tsuboi Y, Wang F, Kozawa D, et al. Enhanced photovoltaic performances of graphene/Si solar cells by insertion of a MoS2thin film[J].Nanoscale,2015,7(34):14476-14482.
[2] Carvalho A, Neto A H C. Donor and acceptor levels in semiconducting transition metal dichalcogenides [J].Physical Review B,2014,89(8):081406.
[3] Jiao K, Duan C, Wu X, et al. The role of MoS2 as an interfacial layer in graphene/silicon solar cells [J].Physical Chemistry Chemical Physics,2015,17(12):8182-8186.
[4] Capasso A, Matteocci F, Najafi L, et al. Few-layer MoS2 flakes as active buffer layer for stable perovskite solar cells[J].Advanced Energy Materials,2016,6(16):1600920.
[5] Du Y, Liu H, Neal A T, et al. Molecular doping of multilayer MoS2 field-effect transistors: reduction in sheet and contact resistances[J].IEEE Electron Device Letters,2013,34(10):1328-1330.
[6] Shanmugam M, Durcan C A, Yu B. Layered semiconductor molybdenum disulfide nanomembrane based Schottky- barrier solar cells[J].Nanoscale,2012,4(23):7399-7405.
[7] Tsai M L, Su S H, Chang J K, et al. Monolayer MoS2 heterojunction solar cells[J].ACS Nano,2014,8(8):8317- 8322.
[8] Ma J, Bai H, Zhao W, et al. High efficiency graphene/MoS2/Si Schottky barrier solar cells using layer- controlled MoS2 films[J].Solar Energy,2018,160:76-84.
[9] Chaudhary R, Patel K, Sinha R K, et al. Potential application of mono/bi-layer molybdenum disulfide (MoS2) sheet as an efficient transparent conducting electrode in silicon heterojunction solar cells[J].Journal of Applied Physics,2016,120 (1):013104.
[10] Varache R, Leendertz C, Gueunier-Farret M E, et al. Investigation of selective junctions using a newly developed tunnel current model for solar cell applications[J].Solar Energy Materials and Solar Cells,2015,141:14-23.
[11] Krichen M, Ben Arab A. Performance of thin silicon solar cells with a quasi-monocrystalline porous silicon layer on the rear side[J].Applied Physics B,2019,125(10):194.
[12] Lin Y R, Tan X, Liu A M. Influence of the asymmetrical defect state distribution at the a-Si∶H/cSi interface on the performance of homo-heterojunction solar cells[J].Surface Science,2019,682:51-59.
[13] Yu M, Li Y Q, Cheng Q J, et al. Numerical simulation of graphene/GaAs heterojunction solar cells[J].Solar Energy,2019,182:453-461.
[14] 赵富鑫,魏彦章.太阳电池及其应用[M].国防工业出版社, 1985:82-88.
[15] 赵 雷,周春兰,李海玲,等. a-Si(n)/c-Si(p)异质结太阳电池薄膜硅背场的模拟优化[J].物理学报,2008,57(5):3212-3218.
[16] 李力猛,周炳卿,陈 霞,等. μc-Si(n)/c-Si(p)异质结太阳电池微晶硅背场的模拟与优化[J].信息记录材料,2009(3):18-21.
罗伟, 姜鑫, 梁世豪, 杜锐. 基于AFORS-HET的单层MoS2(n)/a-Si(i)/c-Si(p)/μc-Si(p+)异质结太阳能电池模拟[J]. 人工晶体学报, 2020, 49(3): 422. LUO Wei, JIANG Xin, LIANG Shihao, DU Rui. Simulation of Single Layer MoS2(n)/a-Si(i)/c-Si(p)/μc-Si(p+)Heterojunction Solar Cells Based on AFORS-HET Software[J]. Journal of Synthetic Crystals, 2020, 49(3): 422.