Electrode-induced impurities in tin halide perovskite solar cell material CsSnBr_(3) from first principles  被引量：1

作　　者：Yuhang Liang Xiangyuan Cui Feng Li Catherine Stampfl Simon P.Ringer Rongkun Zheng 

机构地区：[1]School of Physics,The University of Sydney,New South Wales 2006,Australia [2]School of Aerospace,Mechanical and Mechatronic Engineering,The University of Sydney,New South Wales 2006,Australia

出　　处：《npj Computational Materials》2021年第1期555-563,共9页计算材料学（英文）

基　　金：This research was undertaken with the assistance and resources from the National Computational Infrastructure(NCI Australia),an NCRIS enabled capability supported by the Australian Government.We acknowledge the support provided by the Sydney Informatics Hub at the University of Sydney in accessing these resources.This work is partially supported by the Australian Research Council(DE180100167).

摘　　要：All-inorganic lead-free CsSnBr_(3)is attractive for applications in solar cells due to its nontoxicity and stability,but the device performance to date has been poor.Besides the intrinsic properties,impurities induced from electrodes may significantly influence the device performance.Here,we systematically studied the stability,transition energy levels,and diffusion of impurities from the most commonly used electrodes(Au,Ag,Cu,graphite,and graphene)in CsSnBr_(3)based on density functional theory calculations.Our results reveal that,whereas graphite and graphene electrodes exhibit negligible influence on CsSnBr_(3)due to the relatively high formation energies for carbon impurities in CsSnBr_(3),atoms from the metal electrodes can effectively diffuse into CsSnBr_(3)along interstice and form electrically active impurities in CsSnBr_(3).In this case,a significant amount of donor interstitial impurities,such as Agti,Cuti,and Auti,will be formed under p-type conditions,whereas the Sn-site substitutional acceptor impurities,namely Au_(Sn)^(2-),Ag_(Sn)^(2-),and Cu_(Sn)^(2-),are the dominant impurities,especially under n-type conditions.In particular,except for Auti,all these major impurities from the metal electrodes act as nonradiative recombination centers in CsSnBr_(3)and significantly degrade the device performance.Our work highlights the distinct behaviors of the electrode impurities in CsSnBr_(3)and their influence on the related devices and provides valuable information for identifying suitable electrodes for optoelectronic applications.

关 键 词：stability PEROVSKITE HALIDE 

分 类 号：TM914.4[电气工程—电力电子与电力传动]