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References (242)
-
Weihai Sun, Yunlong Li, Senyun Ye, Haixia Rao, Weibo Yan, Haitao Peng, Y. Li, Zhiwei Liu, Shufeng Wang, Zhijian Chen, Lixin Xiao, Z. Bian, Chunhui Huang (2016)
High-performance inverted planar heterojunction perovskite solar cells based on a solution-processed CuOx hole transport layer.Nanoscale, 8 20
-
Ya-Qiong Wang, W. Fu, Jielin Yan, Jiehuan Chen, Weitao Yang, Hongzheng Chen (2018)
Low-bandgap mixed tin–lead iodide perovskite with large grains for high performance solar cellsJournal of Materials Chemistry, 6
-
Jongseob Kim, Sung-Hoon Lee, Jung Lee, K. Hong (2014)
The Role of Intrinsic Defects in Methylammonium Lead Iodide Perovskite.The journal of physical chemistry letters, 5 8
-
C. Battaglia, A. Cuevas, S. Wolf (2016)
High-efficiency crystalline silicon solar cells: status and perspectivesEnergy and Environmental Science, 9
-
K. Wojciechowski, T. Leijtens, S. Siprova, C. Schlueter, Maximilian Hörantner, Jacob Wang, Chang‐Zhi Li, A. Jen, Tien-Lin Lee, H. Snaith (2015)
C60 as an Efficient n-Type Compact Layer in Perovskite Solar Cells.The journal of physical chemistry letters, 6 12
-
E. Unger, A. Bowring, Christopher Tassone, V. Pool, Aryeh Gold-Parker, Rongrong Cheacharoen, K. Stone, E. Hoke, M. Toney, M. McGehee (2014)
Chloride in lead chloride-derived organo-metal halides for perovskite-absorber solar cellsChemistry of Materials, 26
-
Cheng Li, S. Tscheuschner, F. Paulus, Paul Hopkinson, Johannes Kiessling, A. Köhler, Y. Vaynzof, S. Huettner (2016)
Iodine Migration and its Effect on Hysteresis in Perovskite Solar CellsAdvanced Materials, 28
-
Mingxing Wu, Hongyue Guo, Ya-nan Lin, Kezhong Wu, T. Ma, A. Hagfeldt (2014)
Synthesis of Highly Effective Vanadium Nitride (VN) Peas as a Counter Electrode Catalyst in Dye-Sensitized Solar CellsJournal of Physical Chemistry C, 118
-
Deying Luo, Wenqiang Yang, Zhiping Wang, A. Sadhanala, Qin Hu, Rui Su, Ravichandran Shivanna, G. Trindade, J. Watts, Zhaojian Xu, Tanghao Liu, Ke Chen, Fengjun Ye, Pan Wu, Lichen Zhao, Jiang Wu, Yongguang Tu, Yifei Zhang, Xiaoyu Yang, Wei Zhang, R. Friend, Q. Gong, H. Snaith, Rui Zhu (2018)
Enhanced photovoltage for inverted planar heterojunction perovskite solar cellsScience, 360
-
Fei Zhang, Wenda Shi, Jingshan Luo, N. Pellet, C. Yi, Xiong Li, Xiaoming Zhao, T. Dennis, Xianggao Li, Shirong Wang, Yin Xiao, S. Zakeeruddin, Dongqin Bi, M. Grätzel (2017)
Isomer‐Pure Bis‐PCBM‐Assisted Crystal Engineering of Perovskite Solar Cells Showing Excellent Efficiency and StabilityAdvanced Materials, 29
-
Huimin Zhang, C. Liang, Yong Zhao, Mengjie Sun, Hong Liu, Jing-jing Liang, Dan Li, Fujun Zhang, Zhiqun He (2015)
Dynamic interface charge governing the current-voltage hysteresis in perovskite solar cells.Physical chemistry chemical physics : PCCP, 17 15
-
Changlei Wang, Dewei Zhao, C. Grice, Weiqiang Liao, Yue Yu, A. Cimaroli, N. Shrestha, P. Roland, J. Chen, Zhenhua Yu, Pei Liu, N. Cheng, R. Ellingson, Xingzhong Zhao, Yanfa Yan (2016)
Low-temperature plasma-enhanced atomic layer deposition of tin oxide electron selective layers for highly efficient planar perovskite solar cellsJournal of Materials Chemistry, 4
-
Zonglong Zhu, Qifan Xue, Hexiang He, Kui Jiang, Zhicheng Hu, Yang Bai, Teng Zhang, Shuang Xiao, K. Gundogdu, B. Gautam, H. Ade, F. Huang, K. Wong, H. Yip, Shihe Yang, H. Yan (2015)
A PCBM Electron Transport Layer Containing Small Amounts of Dual Polymer Additives that Enables Enhanced Perovskite Solar Cell PerformanceAdvanced Science, 3
-
F. Giordano, A. Abate, Juan Baena, Michael Saliba, Taisuke Matsui, S. Im, S. Zakeeruddin, M. Nazeeruddin, A. Hagfeldt, M. Graetzel (2016)
Enhanced electronic properties in mesoporous TiO2 via lithium doping for high-efficiency perovskite solar cellsNature Communications, 7
-
Tongle Bu, Xueping Liu, Yuanquan Zhou, Jianpeng Yi, Xin Huang, Long Luo, Junyan Xiao, Zhiliang Ku, Yong Peng, Fuzhi Huang, Yi-bing Cheng, Jie Zhong (2017)
A novel quadruple-cation absorber for universal hysteresis elimination for high efficiency and stable perovskite solar cellsEnergy and Environmental Science, 10
-
Hsin-Wei Chen, Tzu‐Yen Huang, Ting-Hsiang Chang, Y. Sanehira, Chung‐Wei Kung, C. Chu, M. Ikegami, T. Miyasaka, K. Ho (2016)
Efficiency Enhancement of Hybrid Perovskite Solar Cells with MEH-PPV Hole-Transporting LayersScientific Reports, 6
-
Ji‐Youn Seo, Ryusuke Uchida, Hui‐Seon Kim, Yasemin Saygili, Jingshan Luo, Chris Moore, J. Kerrod, Anthony Wagstaff, Mike Eklund, Robin Mcintyre, N. Pellet, S. Zakeeruddin, A. Hagfeldt, M. Grätzel (2018)
Boosting the Efficiency of Perovskite Solar Cells with CsBr‐Modified Mesoporous TiO2 Beads as Electron‐Selective ContactAdvanced Functional Materials, 28
-
Junghwan Kim, M. Saidaminov, H. Tan, Yicheng Zhao, Younghoon Kim, Jongmin Choi, Jea Jo, James Fan, Rafael Quintero‐Bermudez, Zhenyu Yang, L. Quan, Mingyang Wei, O. Voznyy, E. Sargent (2018)
Amide‐Catalyzed Phase‐Selective Crystallization Reduces Defect Density in Wide‐Bandgap PerovskitesAdvanced Materials, 30
-
R. Ginting, Mi-Kyoung Jeon, Kwang Lee, Won-Yong Jin, Tae-Wook Kim, Jae-Wook Kang (2017)
Degradation mechanism of planar-perovskite solar cells: correlating evolution of iodine distribution and photocurrent hysteresisJournal of Materials Chemistry, 5
-
Lin Song, Weijia Wang, V. Körstgens, D. González, Yuan Yao, N. Minar, J. Feckl, K. Peters, T. Bein, D. Fattakhova‐Rohlfing, G. Santoro, S. Roth, P. Müller‐Buschbaum (2016)
Spray Deposition of Titania Films with Incorporated Crystalline Nanoparticles for All‐Solid‐State Dye‐Sensitized Solar Cells Using P3HTAdvanced Functional Materials, 26
-
Zonghao Liu, Qi Chen, Jin‐Wook Lee, Zhixin Zhao, Xiaobao Xu, Y. Hsieh, L. Meng, Pengyu Sun, Nicholas Marco, Huanping Zhou, Yi-bing Cheng, Yang Yang (2018)
Rationally Induced Interfacial Dipole in Planar Heterojunction Perovskite Solar Cells for Reduced J–V HysteresisAdvanced Energy Materials, 8
-
Meltem Aygüler, A. Hufnagel, P. Rieder, M. Wussler, W. Jaegermann, T. Bein, V. Dyakonov, Michiel Petrus, A. Baumann, P. Docampo (2018)
Influence of Fermi Level Alignment with Tin Oxide on the Hysteresis of Perovskite Solar Cells.ACS applied materials & interfaces, 10 14
-
Chao Liang, Pengwei Li, Z. Yiqiang, Hao Gu, Qingbin Cai, Xiaotao Liu, Jiefei Wang, Hua Wen, G. Shao (2017)
Mild solution-processed metal-doped TiO 2 compact layers for hysteresis-less and performance-enhanced perovskite solar cellsJournal of Power Sources, 372
-
Jingmiao Wei, Heng Li, Yicheng Zhao, Wenke Zhou, Rui Fu, Y. Leprince-Wang, D. Yu, Qing Zhao (2016)
Suppressed hysteresis and improved stability in perovskite solar cells with conductive organic networkNano Energy, 26
-
Jeffrey Christians, R. Fung, P. Kamat (2014)
An inorganic hole conductor for organo-lead halide perovskite solar cells. Improved hole conductivity with copper iodide.Journal of the American Chemical Society, 136 2
-
G. Sepalage, Steffen Meyer, Alexander Pascoe, A. Scully, U. Bach, Yi-bing Cheng, L. Spiccia (2017)
A facile deposition method for CuSCN: Exploring the influence of CuSCN on J-V hysteresis in planar perovskite solar cellsNano Energy, 32
-
R. Shang, Zhongmin Zhou, Hiroki Nishioka, Henry Halim, S. Furukawa, Izuru Takei, N. Ninomiya, E. Nakamura (2018)
Disodium Benzodipyrrole Sulfonate as Neutral Hole-Transporting Materials for Perovskite Solar Cells.Journal of the American Chemical Society, 140 15
-
Dong Yang, Xin Zhou, Ruixia Yang, Zhou Yang, Weizhen Yu, Xiuli Wang, Can Li, S. Liu, R. Chang (2016)
Surface optimization to eliminate hysteresis for record efficiency planar perovskite solar cellsEnergy and Environmental Science, 9
-
J. Heo, Dae Song, H. Han, Seongyeon Kim, Jun Kim, Dasom Kim, H. Shin, T. Ahn, Christoph Wolf, Tae‐Woo Lee, S. Im (2015)
Planar CH3NH3PbI3 Perovskite Solar Cells with Constant 17.2% Average Power Conversion Efficiency Irrespective of the Scan RateAdvanced Materials, 27
-
Antonio Guerrero, Agustín Bou, G. Matt, Osbel Almora, Thomas Heumüller, G. Garcia‐Belmonte, J. Bisquert, Yi Hou, C. Brabec (2018)
Switching Off Hysteresis in Perovskite Solar Cells by Fine‐Tuning Energy Levels of Extraction LayersAdvanced Energy Materials, 8
-
Tongle Bu, S. Shi, Jing Li, Yifan Liu, Jielin Shi, Li Chen, Xueping Liu, J. Qiu, Zhiliang Ku, Yong Peng, Jie Zhong, Yi-bing Cheng, Fuzhi Huang (2018)
Low-Temperature Presynthesized Crystalline Tin Oxide for Efficient Flexible Perovskite Solar Cells and Modules.ACS applied materials & interfaces, 10 17
-
Dae-Yong Son, Seul-Gi Kim, Ja-Young Seo, Seonhee Lee, Hyunjung Shin, Donghwa Lee, N. Park (2018)
Universal Approach toward Hysteresis-Free Perovskite Solar Cell via Defect Engineering.Journal of the American Chemical Society, 140 4
-
Yaoguang Rong, Yue Hu, Sandheep Ravishankar, Huawei Liu, Xiaomeng Hou, Yusong Sheng, Anyi Mei, Qifei Wang, Daiyu Li, Mi Xu, J. Bisquert, Hongwei Han (2017)
Tunable hysteresis effect for perovskite solar cellsEnergy and Environmental Science, 10
-
Randi Azmi, Sun-Na Hwang, Wenping Yin, Tae-Wook Kim, T. Ahn, S. Jang (2018)
High Efficiency Low-Temperature Processed Perovskite Solar Cells Integrated with Alkali Metal Doped ZnO Electron Transport LayersACS energy letters, 3
-
W. Nie, H. Tsai, R. Asadpour, J. Blancon, A. Neukirch, Gautam Gupta, J. Crochet, M. Chhowalla, S. Tretiak, M. Alam, Hsing-lin Wang, A. Mohite (2015)
High-efficiency solution-processed perovskite solar cells with millimeter-scale grainsScience, 347
-
S. Weber, Ilka Hermes, Silver‐Hamill Turren‐Cruz, C. Gort, Victor Bergmann, L. Gilson, A. Hagfeldt, M. Graetzel, W. Tress, R. Berger (2018)
How the formation of interfacial charge causes hysteresis in perovskite solar cellsEnergy and Environmental Science, 11
-
Yongzhen Wu, Xudong Yang, Wei Chen, Youfeng Yue, Molang Cai, Fengxian Xie, Enbing Bi, A. Islam, Liyuan Han (2016)
Perovskite solar cells with 18.21% efficiency and area over 1 cm2 fabricated by heterojunction engineeringNature Energy, 1
-
Arafat Mahmud, N. Elumalai, M. Upama, Dian Wang, M. Wright, K. Chan, Cheng Xu, F. Haque, A. Uddin (2016)
Single Vs Mixed Organic Cation for Low Temperature Processed Perovskite Solar CellsElectrochimica Acta, 222
-
Yang Xu, Yi Wang, Jichao Yu, B. Feng, Hai Zhou, Jun Zhang, J. Duan, Xi Fan, P. Aken, P. Lund, Hao Wang (2016)
Performance Improvement of Perovskite Solar Cells Based on PCBM-Modified ZnO-Nanorod ArraysIEEE Journal of Photovoltaics, 6
-
Gert‐Jan Wetzelaer, M. Scheepers, Araceli Sempere, Cristina Momblona, J. Ávila, H. Bolink (2015)
Trap‐Assisted Non‐Radiative Recombination in Organic–Inorganic Perovskite Solar CellsAdvanced Materials, 27
-
J. Heo, H. Han, Dasom Kim, T. Ahn, S. Im (2015)
Hysteresis-less inverted CH3NH3PbI3 planar perovskite hybrid solar cells with 18.1% power conversion efficiencyEnergy and Environmental Science, 8
-
Zhangfeng Shen, M. Wang, Lihong Liu, M. Sofianos, Hu Yang, Shaobin Wang, Shaomin Liu (2018)
Carbon-coated three-dimensional WS 2 film consisting of WO 3 @WS 2 core-shell blocks and layered WS 2 nanostructures as counter electrodes for efficient dye-sensitized solar cellsElectrochimica Acta, 266
-
Daniel Jacobs, Yiliang Wu, Heping Shen, Chog Barugkin, F. Beck, T. White, K. Weber, K. Catchpole (2017)
Hysteresis phenomena in perovskite solar cells: the many and varied effects of ionic accumulation.Physical chemistry chemical physics : PCCP, 19 4
-
Yue Yu, Changlei Wang, C. Grice, N. Shrestha, J. Chen, Dewei Zhao, Weiqiang Liao, A. Cimaroli, P. Roland, R. Ellingson, Yanfa Yan (2016)
Improving the Performance of Formamidinium and Cesium Lead Triiodide Perovskite Solar Cells using Lead Thiocyanate Additives.ChemSusChem, 9 23
-
Chun‐Guey Wu, Chien-Hung Chiang, Zong-Liang Tseng, Md. Nazeeruddin, A. Hagfeldt, M. Grätzel (2015)
High efficiency stable inverted perovskite solar cells without current hysteresisEnergy and Environmental Science, 8
-
Wu‐Qiang Wu, Yang-Fan Xu, C. Su, D. Kuang (2014)
Ultra-long anatase TiO2 nanowire arrays with multi-layered configuration on FTO glass for high-efficiency dye-sensitized solar cellsEnergy and Environmental Science, 7
-
Changlei Wang, Dewei Zhao, Yue Yu, N. Shrestha, C. Grice, Weiqiang Liao, A. Cimaroli, J. Chen, R. Ellingson, Xingzhong Zhao, Yanfa Yan (2017)
Compositional and morphological engineering of mixed cation perovskite films for highly efficient planar and flexible solar cells with reduced hysteresisNano Energy, 35
-
Hui‐Seon Kim, N. Park (2014)
Parameters Affecting I-V Hysteresis of CH3NH3PbI3 Perovskite Solar Cells: Effects of Perovskite Crystal Size and Mesoporous TiO2 Layer.The journal of physical chemistry letters, 5 17
-
Hui‐Seon Kim, I. Jang, Namyoung Ahn, Mansoo Choi, Antonio Guerrero, J. Bisquert, N. Park (2015)
Control of I-V hysteresis in CH3NH3PbI3 perovskite solar cell.The journal of physical chemistry letters, 6 22
-
F. Matteocci, L. Cinà, E. Lamanna, S. Cacovich, G. Divitini, P. Midgley, C. Ducati, A. Carlo (2016)
Encapsulation for long-term stability enhancement of perovskite solar cellsNano Energy, 30
-
G. Eperon, G. Paternó, Rebecca Sutton, A. Zampetti, A. Haghighirad, F. Cacialli, H. Snaith (2015)
Inorganic caesium lead iodide perovskite solar cellsJournal of Materials Chemistry, 3
-
J. You, L. Meng, Tze‐Bin Song, Tzung‐Fang Guo, Yang Yang, Wei‐Hsuan Chang, Z. Hong, Huajun Chen, Huanping Zhou, Qi Chen, Yongsheng Liu, Nicholas Marco, Yang Yang (2016)
Improved air stability of perovskite solar cells via solution-processed metal oxide transport layers.Nature nanotechnology, 11 1
-
Dong Wei, Fusheng Ma, Rui Wang, Shangyi Dou, P. Cui, Hao Huang, Jun Ji, Endong Jia, Xiaojie Jia, Sajid Sajid, A. Elseman, Lihua Chu, Yingfeng Li, B. Jiang, J. Qiao, Yong-bo Yuan, Meicheng Li (2018)
Ion‐Migration Inhibition by the Cation–π Interaction in Perovskite Materials for Efficient and Stable Perovskite Solar CellsAdvanced Materials, 30
-
Chuantian Zuo, Liming Ding (2015)
Solution-Processed Cu2O and CuO as Hole Transport Materials for Efficient Perovskite Solar Cells.Small, 11 41
-
S. Stranks, H. Snaith (2015)
Metal-halide perovskites for photovoltaic and light-emitting devices.Nature nanotechnology, 10 5
-
Michael Lee, J. Teuscher, T. Miyasaka, T. Murakami, H. Snaith (2012)
Efficient Hybrid Solar Cells Based on Meso-Superstructured Organometal Halide PerovskitesScience, 338
-
Yongyoon Cho, A. Soufiani, J. Yun, Jincheol Kim, Da Lee, J. Seidel, Xiaofan Deng, M. Green, Shujuan Huang, A. Ho-baillie (2018)
Mixed 3D–2D Passivation Treatment for Mixed‐Cation Lead Mixed‐Halide Perovskite Solar Cells for Higher Efficiency and Better StabilityAdvanced Energy Materials, 8
-
Minghua Li, Xiaoqin Yan, Z. Kang, Yahuan Huan, Yong Li, Ruxiao Zhang, Yue Zhang (2018)
Hydrophobic Polystyrene Passivation Layer for Simultaneously Improved Efficiency and Stability in Perovskite Solar Cells.ACS applied materials & interfaces, 10 22
-
S. Ito, Soichiro Tanaka, Kyohei Manabe, H. Nishino (2014)
Effects of Surface Blocking Layer of Sb2S3 on Nanocrystalline TiO2 for CH3NH3PbI3 Perovskite Solar CellsJournal of Physical Chemistry C, 118
-
H. Tan, Ankit Jain, O. Voznyy, Xinzheng Lan, F. Arquer, James Fan, Rafael Quintero‐Bermudez, M. Yuan, Bo Zhang, Yicheng Zhao, Fengjia Fan, Peicheng Li, L. Quan, Yong‐Biao Zhao, Zhenghong Lu, Zhenyu Yang, S. Hoogland, E. Sargent (2017)
SOLAR CELLS: Efficient and stable solution‐processed planar perovskite solar cells via contact passivationScience, 355
-
Yong Li, Kyle Scheel, Robert Clevenger, Wan Shou, H. Pan, K. Kilway, Zhonghua Peng (2018)
Highly Efficient and Stable Perovskite Solar Cells Using a Dopant‐Free Inexpensive Small Molecule as the Hole‐Transporting MaterialAdvanced Energy Materials, 8
-
Jaewon Ha, Hoyeon Kim, Hyun Lee, Kyung‐Geun Lim, Tae‐Woo Lee, S. Yoo (2017)
Device architecture for efficient, low-hysteresis flexible perovskite solar cells: Replacing TiO2 with C60 assisted by polyethylenimine ethoxylated interfacial layersSolar Energy Materials and Solar Cells, 161
-
Xuejie Zhu, Zhuo Xu, Shengnan Zuo, Jiangshan Feng, Ziyu Wang, Xiaorong Zhang, K. Zhao, Jian Zhang, Hairui Liu, S. Priya, S. Liu, Dong Yang (2018)
Vapor-fumigation for record efficiency two-dimensional perovskite solar cells with superior stabilityEnergy and Environmental Science, 11
-
A. Kyaw, D. Wang, Vinay Gupta, Jie Zhang, S. Chand, G. Bazan, A. Heeger (2013)
Efficient Solution‐Processed Small‐Molecule Solar Cells with Inverted StructureAdvanced Materials, 25
-
Atsushi Kogo, M. Ikegami, T. Miyasaka (2016)
A SnOx-brookite TiO2 bilayer electron collector for hysteresis-less high efficiency plastic perovskite solar cells fabricated at low process temperature.Chemical communications, 52 52
-
William Mateker, M. McGehee (2017)
Progress in Understanding Degradation Mechanisms and Improving Stability in Organic PhotovoltaicsAdvanced Materials, 29
-
Ze Wang, Zejiao Shi, Taotao Li, Yonghua Chen, Wei Huang (2017)
Stability of Perovskite Solar Cells: A Prospective on the Substitution of the A Cation and X Anion.Angewandte Chemie, 56 5
-
Yingguo Yang, S. Feng, Weidong Xu, M. Li, Li Li, Xingmin Zhang, G. Ji, Xiaonan Zhang, Zhaokui Wang, Y. Xiong, Liang Cao, Baoquan Sun, Xingyu Gao (2017)
Enhanced Crystalline Phase Purity of CH3NH3PbI3-xClx Film for High-Efficiency Hysteresis-Free Perovskite Solar Cells.ACS applied materials & interfaces, 9 27
-
Haiying Zheng, Liangzheng Zhu, Linhua Hu, Shangfeng Yang, Shuanghong Chen, A. Alsaedi, T. Hayat, Y. Huang, Xu Pan, Songyuan Dai (2018)
Promoting perovskite crystal growth to achieve highly efficient and stable solar cells by introducing acetamide as an additiveJournal of Materials Chemistry, 6
-
Xianghong He, Yang Bai, Haining Chen, Xiaoli Zheng, Shihe Yang (2016)
High Performance Perovskite Solar Cells through Surface Modification, Mixed Solvent Engineering and Nanobowl-Assisted Light HarvestingMRS Advances, 1
-
Wei Chen, Yongzhen Wu, Jian Liu, Chuanjiang Qin, Xudong Yang, A. Islam, Yi-bing Cheng, Liyuan Han (2015)
Hybrid interfacial layer leads to solid performance improvement of inverted perovskite solar cellsEnergy and Environmental Science, 8
-
Zhiping Wang, Qianqian Lin, F. Chmiel, Nobuya Sakai, L. Herz, H. Snaith (2017)
Efficient ambient-air-stable solar cells with 2D–3D heterostructured butylammonium-caesium-formamidinium lead halide perovskitesNature Energy, 2
-
H. Jung, N. Park (2015)
Perovskite solar cells: from materials to devices.Small, 11 1
-
Jeffrey Christians, P. Schulz, Jonathan Tinkham, Tracy Schloemer, S. Harvey, Bertrand Villers, A. Sellinger, Joseph Berry, J. Luther (2018)
Tailored interfaces of unencapsulated perovskite solar cells for >1,000 hour operational stabilityNature Energy, 3
-
M. Byranvand, Taewan Kim, Seulki Song, Gyeongho Kang, Seung Ryu, T. Park (2018)
p‐Type CuI Islands on TiO2 Electron Transport Layer for a Highly Efficient Planar‐Perovskite Solar Cell with Negligible HysteresisAdvanced Energy Materials, 8
-
Zhen Li, Jonathan Tinkham, P. Schulz, Mengjin Yang, Dong Kim, J. Berry, A. Sellinger, K. Zhu (2017)
Acid Additives Enhancing the Conductivity of Spiro‐OMeTAD Toward High‐Efficiency and Hysteresis‐Less Planar Perovskite Solar CellsAdvanced Energy Materials, 7
-
H. Snaith, A. Abate, J. Ball, G. Eperon, T. Leijtens, Nakita Noel, S. Stranks, Jacob Wang, K. Wojciechowski, Wei Zhang (2014)
Anomalous Hysteresis in Perovskite Solar Cells.The journal of physical chemistry letters, 5 9
-
T. Miyadera, T. Sugita, M. Chikamatsu (2017)
Hysteresis Analysis of Organolead Halide Perovskite Solar Cells by Transient Current MeasurementElectrochemistry, 85
-
Shuai You, Hui Wang, Shiqing Bi, Jiyu Zhou, Liang Qin, Xiaohui Qiu, Zhiqiang Zhao, Yun Xu, Y. Zhang, Xinghua Shi, Huiqiong Zhou, Z. Tang (2018)
A Biopolymer Heparin Sodium Interlayer Anchoring TiO2 and MAPbI3 Enhances Trap Passivation and Device Stability in Perovskite Solar CellsAdvanced Materials, 30
-
K. Mahmood, B. Swain, A. Amassian (2015)
16.1% Efficient Hysteresis‐Free Mesostructured Perovskite Solar Cells Based on Synergistically Improved ZnO Nanorod ArraysAdvanced Energy Materials, 5
-
Ying Guo, Tao Liu, Ning Wang, Q. Luo, Hong Lin, Jianbao Li, Qinglong Jiang, Lili Wu, Zhanhu Guo (2017)
Ni-doped α-Fe2O3 as electron transporting material for planar heterojunction perovskite solar cells with improved efficiency, reduced hysteresis and ultraviolet stabilityNano Energy, 38
-
Yuanyuan Zhou, Mengjin Yang, Wenwen Wu, A. Vasiliev, K. Zhu, N. Padture (2015)
Room-temperature crystallization of hybrid-perovskite thin films via solvent–solvent extraction for high-performance solar cellsJournal of Materials Chemistry, 3
-
I. Smith, E. Hoke, D. Solis‐Ibarra, M. McGehee, H. Karunadasa (2014)
A layered hybrid perovskite solar-cell absorber with enhanced moisture stability.Angewandte Chemie, 53 42
-
Liangle Wang, Fengjing Liu, Fengjing Liu, Tianjun Liu, Xiaoyong Cai, Gongtang Wang, T. Ma, T. Ma, Chao Jiang (2017)
Low-temperature processed compact layer for perovskite solar cells with negligible hysteresisElectrochimica Acta, 235
-
Yaoguang Rong, Linfeng Liu, Anyi Mei, Xiong Li, Hongwei Han (2015)
Beyond Efficiency: the Challenge of Stability in Mesoscopic Perovskite Solar CellsAdvanced Energy Materials, 5
-
J. Qi, Xiang Yao, Wenzhan Xu, Xiao Wu, Xiaofang Jiang, X. Gong, Yong Cao (2018)
Efficient Perovskite Solar Cells with Reduced Photocurrent Hysteresis through Tuned Crystallinity of Hybrid Perovskite Thin FilmsACS Omega, 3
-
Hisham Abbas, Ranjith Kottokkaran, Balaji Ganapathy, M. Samiee, Liang Zhang, Andrew Kitahara, M. Noack, V. Dalal (2015)
High efficiency sequentially vapor grown n-i-p CH3NH3PbI3 perovskite solar cells with undoped P3HT as p-type heterojunction layerAPL Materials, 3
-
Qi Chen, Huanping Zhou, Z. Hong, Song Luo, Hsin‐Sheng Duan, Hsin-Hua Wang, Yongsheng Liu, Gang Li, Yang Yang (2014)
Planar heterojunction perovskite solar cells via vapor-assisted solution process.Journal of the American Chemical Society, 136 2
-
H. Tsai, W. Nie, J. Blancon, C. Stoumpos, R. Asadpour, Boris Harutyunyan, A. Neukirch, R. Verduzco, J. Crochet, S. Tretiak, L. Pédesseau, J. Even, M. Alam, Gautam Gupta, J. Lou, P. Ajayan, M. Bedzyk, M. Kanatzidis, A. Mohite (2016)
High-efficiency two-dimensional Ruddlesden–Popper perovskite solar cellsNature, 536
-
Sandheep Ravishankar, S. Gharibzadeh, C. Roldán-Carmona, G. Grancini, Yonghui Lee, Maryline Ralaiarisoa, Abdullah Asiri, N. Koch, J. Bisquert, M. Nazeeruddin (2018)
Influence of Charge Transport Layers on Open-Circuit Voltage and Hysteresis in Perovskite Solar CellsJoule, 2
-
S. Tombe, Getachew Adam, H. Heilbrunner, D. Apaydin, C. Ulbricht, N. Sariciftci, C. Arendse, E. Iwuoha, M. Scharber (2017)
Optical and electronic properties of mixed halide (X = I, Cl, Br) methylammonium lead perovskite solar cellsJournal of Materials Chemistry C, 5
-
Senyun Ye, Weihai Sun, Yunlong Li, Weibo Yan, Haitao Peng, Z. Bian, Zhiwei Liu, Chunhui Huang (2015)
CuSCN-Based Inverted Planar Perovskite Solar Cell with an Average PCE of 15.6%.Nano letters, 15 6
-
G. Xing, N. Mathews, Shuangyong Sun, Swee Lim, Y. Lam, M. Grätzel, S. Mhaisalkar, T. Sum (2013)
Long-Range Balanced Electron- and Hole-Transport Lengths in Organic-Inorganic CH3NH3PbI3Science, 342
-
G. Eperon, S. Stranks, C. Menelaou, M. Johnston, L. Herz, H. Snaith (2014)
Formamidinium lead trihalide: a broadly tunable perovskite for efficient planar heterojunction solar cellsEnergy and Environmental Science, 7
-
Xiao Liu, K. Tsai, Zonglong Zhu, Ye Sun, Chu‐Chen Chueh, A. Jen (2016)
A Low‐Temperature, Solution Processable Tin Oxide Electron‐Transporting Layer Prepared by the Dual‐Fuel Combustion Method for Efficient Perovskite Solar CellsAdvanced Materials Interfaces, 3
-
Fan Wu, B. Bahrami, Ke Chen, Sally Mabrouk, R. Pathak, Yanhua Tong, Xiaoyi Li, Tiansheng Zhang, Ronghua Jian, Q. Qiao (2018)
Bias-Dependent Normal and Inverted J- V Hysteresis in Perovskite Solar Cells.ACS applied materials & interfaces, 10 30
-
Aurélien Leguy, J. Frost, Andrew McMahon, V. Sakai, W. Kockelmann, Chunhung Law, Xiaoe Li, F. Foglia, A. Walsh, B. O'Regan, J. Nelson, J. Cabral, Piers Barnes (2015)
The dynamics of methylammonium ions in hybrid organic–inorganic perovskite solar cellsNature Communications, 6
-
Z. Gu, Lijian Zuo, T. Larsen-Olsen, T. Ye, Gang Wu, F. Krebs, Hongzheng Chen (2015)
Interfacial engineering of self-assembled monolayer modified semi-roll-to-roll planar heterojunction perovskite solar cells on flexible substratesJournal of Materials Chemistry, 3
-
Senyun Ye, Haixia Rao, Weibo Yan, Yunlong Li, Weihai Sun, Haitao Peng, Zhiwei Liu, Z. Bian, Yongfang Li, Chunhui Huang (2016)
A Strategy to Simplify the Preparation Process of Perovskite Solar Cells by Co‐deposition of a Hole‐Conductor and a Perovskite LayerAdvanced Materials, 28
-
O. Malinkiewicz, A. Yella, Yong Lee, G. Espallargas, M. Graetzel, M. Nazeeruddin, H. Bolink (2013)
Perovskite solar cells employing organic charge-transport layersNature Photonics, 8
-
Y. Zong, Ning Wang, Lin Zhang, Minggang Ju, X. Zeng, X. Sun, Yuanyuan Zhou, N. Padture (2017)
Homogenous Alloys of Formamidinium Lead Triiodide and Cesium Tin Triiodide for Efficient Ideal-Bandgap Perovskite Solar Cells.Angewandte Chemie, 56 41
-
Seulki Song, Rebecca Hill, Kyoungwon Choi, K. Wojciechowski, S. Barlow, J. Leisen, H. Snaith, S. Marder, T. Park (2018)
Surface modified fullerene electron transport layers for stable and reproducible flexible perovskite solar cellsNano Energy
-
Xingtian Yin, Jie Liu, Jiaqi Ma, Chongxin Zhang, Peng Chen, Meidan Que, Yawei Yang, W. Que, C. Niu, J. Shao (2016)
Solvothermal derived crystalline NiO x nanoparticles for high performance perovskite solar cellsJournal of Power Sources, 329
-
Po-Wei Liang, Chien‐Yi Liao, Chu‐Chen Chueh, Fan Zuo, Spencer Williams, Xukai Xin, Jiang-Jen Lin, A. Jen (2014)
Additive Enhanced Crystallization of Solution‐Processed Perovskite for Highly Efficient Planar‐Heterojunction Solar CellsAdvanced Materials, 26
-
Jea Jo, M. Seo, Minwoo Park, Jae-Yup Kim, Joon-Suh Park, I. Han, Hyungju Ahn, J. Jung, B. Sohn, M. Ko, H. Son (2016)
Improving Performance and Stability of Flexible Planar‐Heterojunction Perovskite Solar Cells Using Polymeric Hole‐Transport MaterialAdvanced Functional Materials, 26
-
M. Dar, N. Arora, P. Gao, Shahzad Ahmad, M. Grätzel, M. Nazeeruddin (2014)
Investigation regarding the role of chloride in organic-inorganic halide perovskites obtained from chloride containing precursors.Nano letters, 14 12
-
Michael Saliba, Taisuke Matsui, Konrad Domanski, Ji‐Youn Seo, Amita Ummadisingu, S. Zakeeruddin, Juan‐Pablo Correa‐Baena, W. Tress, A. Abate, A. Hagfeldt, M. Grätzel (2016)
Incorporation of rubidium cations into perovskite solar cells improves photovoltaic performanceScience, 354
-
W. Tress, N. Marinova, T. Moehl, S. Zakeeruddin, M. Nazeeruddin, M. Grätzel (2015)
Understanding the rate-dependent J–V hysteresis, slow time component, and aging in CH3NH3PbI3 perovskite solar cells: the role of a compensated electric fieldEnergy and Environmental Science, 8
-
Energy Mater -
Hui‐Seon Kim, Chang-Ryul Lee, J. Im, Ki-Beom Lee, T. Moehl, Arianna Marchioro, S. Moon, R. Humphry‐Baker, Jun‐Ho Yum, J. Moser, M. Grätzel, N. Park (2012)
Lead Iodide Perovskite Sensitized All-Solid-State Submicron Thin Film Mesoscopic Solar Cell with Efficiency Exceeding 9%Scientific Reports, 2
-
Zonglong Zhu, Jing-Qi Xu, Chu‐Chen Chueh, Hongbin Liu, Zhong’an Li, Xiaosong Li, Hongzheng Chen, A. Jen (2016)
A Low‐Temperature, Solution‐Processable Organic Electron‐Transporting Layer Based on Planar Coronene for High‐performance Conventional Perovskite Solar CellsAdvanced Materials, 28
-
Ling Wang, W. Fu, Z. Gu, Congcheng Fan, Xi Yang, Hanying Li, Hongzheng Chen (2014)
Low temperature solution processed planar heterojunction perovskite solar cells with a CdSe nanocrystal as an electron transport/extraction layerJournal of Materials Chemistry C, 2
-
Jian Qing, Xiao‐Ke Liu, Mingjie Li, Feng Liu, Zhongcheng Yuan, Elizaveta Tiukalova, Zhibo Yan, M. Duchamp, Shi Chen, Yuming Wang, Sai Bai, Jun-ming Liu, H. Snaith, Chun‐Sing Lee, T. Sum, F. Gao (2018)
Aligned and Graded Type‐II Ruddlesden–Popper Perovskite Films for Efficient Solar CellsAdvanced Energy Materials, 8
-
Shuo Wang, Bao Liu, Yu Zhu, Zirui Ma, Beibei Liu, Xu Miao, Ruixin Ma, Chengya Wang (2018)
Enhanced performance of TiO2-based perovskite solar cells with Ru-doped TiO2 electron transport layerSolar Energy
-
Xin He, Jihuai Wu, Y. Tu, Jinbiao Jia, Jia Dong, Rui Xu, Qiyao Guo, Tongyue Wu, Z. Lan, Jian-ming Lin, Yiming Xie (2017)
Reducing hysteresis and enhancing performance of perovskite solar cells using acetylacetonate modified TiO 2 nanoparticles as electron transport layersJournal of Power Sources, 365
-
Xiao Liu, Yanbo Wang, Fengxian Xie, Xudong Yang, Liyuan Han (2018)
Improving the Performance of Inverted Formamidinium Tin Iodide Perovskite Solar Cells by Reducing the Energy-Level MismatchACS energy letters, 3
-
F. Giacomo, S. Razza, F. Matteocci, A. D’Epifanio, S. Licoccia, T. Brown, A. Carlo (2014)
High efficiency CH3NH3PbI(3−x)Clx perovskite solar cells with poly(3-hexylthiophene) hole transport layerJournal of Power Sources, 251
-
Dong Yang, Ruixia Yang, Kai Wang, Congcong Wu, Xuejie Zhu, Jiangshan Feng, X. Ren, G. Fang, S. Priya, S. Liu (2018)
High efficiency planar-type perovskite solar cells with negligible hysteresis using EDTA-complexed SnO2Nature Communications, 9
-
Xiong Li, Dongqin Bi, C. Yi, Jean-David Décoppet, Jingshan Luo, S. Zakeeruddin, A. Hagfeldt, M. Grätzel (2016)
A vacuum flash–assisted solution process for high-efficiency large-area perovskite solar cellsScience, 353
-
Jin Huang, Minqiang Wang, Lei Ding, Jianping Deng, X. Yao (2015)
Efficiency enhancement of the MAPbI3−xClx-based perovskite solar cell by a two-step annealing procedureSemiconductor Science and Technology, 31
-
Si-Min Dai, Han-Rui Tian, Mei-Lin Zhang, Z. Xing, Luyao Wang, Xin Wang, Tan Wang, Lin-Long Deng, S. Xie, Rong-Bin Huang, Lan-Sun Zheng (2017)
Pristine fullerenes mixed by vacuum-free solution process: Efficient electron transport layer for planar perovskite solar cellsJournal of Power Sources, 339
-
Juan‐Pablo Correa‐Baena, A. Abate, Michael Saliba, W. Tress, T. Jacobsson, M. Grätzel, A. Hagfeldt (2017)
The rapid evolution of highly efficient perovskite solar cellsEnergy and Environmental Science, 10
-
Zhenbao Zhang, Dengjie Chen, Jian Wang, Shaozao Tan, Xianguo Yu, Zongping Shao (2018)
Highly Active and Stable Cobalt-Free Hafnium-doped SrFe0.9Hf0.1O3−δ Perovskite Cathode for Solid Oxide Fuel Cells, 1
-
G. Eperon, V. Burlakov, P. Docampo, A. Goriely, H. Snaith (2014)
Morphological Control for High Performance, Solution‐Processed Planar Heterojunction Perovskite Solar CellsAdvanced Functional Materials, 24
-
Lixiao Zhao, Lixiao Zhao, Xueyan Wang, Xiaodong Li, Wenjun Zhang, Xiaohui Liu, Yuejin Zhu, Hai-Qiao Wang, Junfeng Fang (2016)
Improving performance and reducing hysteresis in perovskite solar cells by using F8BT as electron transporting layerSolar Energy Materials and Solar Cells, 157
-
Weijun Ke, G. Fang, Qin Liu, Liangbin Xiong, P. Qin, H. Tao, Jing Wang, Hongwei Lei, Borui Li, Jiawei Wan, Guang Yang, Yanfa Yan (2015)
Low-temperature solution-processed tin oxide as an alternative electron transporting layer for efficient perovskite solar cells.Journal of the American Chemical Society, 137 21
-
G. Filpo, F. Nicoletta, L. Ciliberti, Patrizia Formoso, G. Chidichimo (2015)
Non-covalent functionalisation of single wall carbon nanotubes for efficient dye-sensitised solar cellsJournal of Power Sources, 274
-
W. Tress, J. Baena, Michael Saliba, A. Abate, M. Graetzel (2016)
Inverted Current–Voltage Hysteresis in Mixed Perovskite Solar Cells: Polarization, Energy Barriers, and Defect RecombinationAdvanced Energy Materials, 6
-
Yu Hou, Xiao Chen, Shuang Yang, Y. Zhong, Chunzhong Li, Huijun Zhao, H. Yang (2017)
Low-Temperature Processed In 2 S 3 Electron Transport Layer for Efficient Hybrid Perovskite Solar CellsNano Energy, 36
-
Heping Shen, Daniel Jacobs, Yiliang Wu, The Duong, Jun Peng, X. Wen, Xiao-qiang Fu, S. Karuturi, T. White, K. Weber, K. Catchpole (2017)
Inverted Hysteresis in CH3NH3PbI3 Solar Cells: Role of Stoichiometry and Band Alignment.The journal of physical chemistry letters, 8 12
-
J. Burschka, Amalie Dualeh, F. Kessler, E. Baranoff, Ngoc-Lê Cevey-Ha, C. Yi, M. Nazeeruddin, M. Grätzel (2011)
Tris(2-(1H-pyrazol-1-yl)pyridine)cobalt(III) as p-type dopant for organic semiconductors and its application in highly efficient solid-state dye-sensitized solar cells.Journal of the American Chemical Society, 133 45
-
Umer Mehmood, I. Hussein, K. Harrabi, M. Mekki, Shakeel Ahmed, N. Tabet (2015)
Hybrid TiO2–multiwall carbon nanotube (MWCNTs) photoanodes for efficient dye sensitized solar cells (DSSCs)Solar Energy Materials and Solar Cells, 140
-
(2018)
High performance ambient-air-stable FAPbI3 perovskite solar cells with molecule-passivated Ruddlesden–Popper/3D heterostructured film -
Xuan Liu, Xinxin Xia, Qiuquan Cai, F. Cai, Liyan Yang, Y. Yan, Tao Wang (2017)
Efficient planar heterojunction perovskite solar cells with weak hysteresis fabricated via bar coatingSolar Energy Materials and Solar Cells, 159
-
M. Green, A. Ho-baillie, H. Snaith (2014)
The emergence of perovskite solar cellsNature Photonics, 8
-
Yong-bo Yuan, J. Chae, Yuchuan Shao, Qi Wang, Zhengguo Xiao, A. Centrone, Jinsong Huang (2015)
Photovoltaic Switching Mechanism in Lateral Structure Hybrid Perovskite Solar CellsAdvanced Energy Materials, 5
-
S. Shalini, R. Balasundaraprabhu, T. Kumar, N. Prabavathy, S. Senthilarasu, S. Prasanna (2016)
Status and outlook of sensitizers/dyes used in dye sensitized solar cells (DSSC): a reviewInternational Journal of Energy Research, 40
-
Bo Chen, Xiaojia Zheng, Mengjin Yang, Yuan Zhou, Souvik Kundu, Jian Shi, K. Zhu, S. Priya (2015)
Interface band structure engineering by ferroelectric polarization in perovskite solar cellsNano Energy, 13
-
F. Fabregat‐Santiago, Michael Kulbak, Arava Zohar, Marta Vallés-Pelarda, G. Hodes, D. Cahen, I. Mora‐Seró (2017)
Deleterious Effect of Negative Capacitance on the Performance of Halide Perovskite Solar CellsACS energy letters, 2
-
Jiang Liu, Chenglin Gao, L. Luo, Qinyan Ye, He Xulin, L. Ouyang, Xiaowei Guo, Daming Zhuang, Cheng Liao, Jun Mei, W. Lau (2015)
Low-temperature, solution processed metal sulfide as an electron transport layer for efficient planar perovskite solar cellsJournal of Materials Chemistry, 3
-
Jing Wei, Yicheng Zhao, Heng Li, Guobao Li, Jinlong Pan, Dongsheng Xu, Qing Zhao, D. Yu (2014)
Hysteresis Analysis Based on the Ferroelectric Effect in Hybrid Perovskite Solar Cells.The journal of physical chemistry letters, 5 21
-
Xiangyue Meng, Junshuai Zhou, Jie Hou, Xia Tao, S. Cheung, S. So, Shihe Yang (2018)
Versatility of Carbon Enables All Carbon Based Perovskite Solar Cells to Achieve High Efficiency and High StabilityAdvanced Materials, 30
-
Heetae Yoon, S. Kang, Jong-Kwon Lee, Mansoo Choi (2016)
Hysteresis-free low-temperature-processed planar perovskite solar cells with 19.1% efficiencyEnergy and Environmental Science, 9
-
Haijuan Zhang, Meihui Hou, Yingdong Xia, Qi Wei, Ze Wang, Yingchun Cheng, Yonghua Chen, Wei Huang (2018)
Synergistic effect of anions and cations in additives for highly efficient and stable perovskite solar cellsJournal of Materials Chemistry, 6
-
Silvia Collavini, Michael Saliba, W. Tress, Philippe Holzhey, S. Völker, Konrad Domanski, Silver‐Hamill Turren‐Cruz, Amita Ummadisingu, S. Zakeeruddin, A. Hagfeldt, M. Grätzel, J. Delgado (2018)
Poly(ethylene glycol)-[60]Fullerene-Based Materials for Perovskite Solar Cells with Improved Moisture Resistance and Reduced Hysteresis.ChemSusChem, 11 6
-
H. Nagaoka, F. Ma, Dane deQuilettes, S. Vorpahl, Micah Glaz, Adam Colbert, Mark Ziffer, D. Ginger (2015)
Zr Incorporation into TiO2 Electrodes Reduces Hysteresis and Improves Performance in Hybrid Perovskite Solar Cells while Increasing Carrier Lifetimes.The journal of physical chemistry letters, 6 4
-
Z. Zhang, B. Men, Y. Liu, H. Gao, Y. Mao (2017)
Effects of precursor solution composition on the performance and I-V hysteresis of perovskite solar cells based on CH3NH3PbI3-xClxNanoscale Research Letters, 12
-
N. Jeon, Hyejin Na, E. Jung, Tae-Youl Yang, Yong Lee, Geunjin Kim, H. Shin, Sang Seok, Jaemin Lee, Jangwon Seo (2018)
A fluorene-terminated hole-transporting material for highly efficient and stable perovskite solar cellsNature Energy, 3
-
Y. Park, Inyoung Jeong, S. Bae, H. Son, Phillip Lee, Jinwoo Lee, C. Lee, M. Ko (2017)
Inorganic Rubidium Cation as an Enhancer for Photovoltaic Performance and Moisture Stability of HC(NH2)2PbI3 Perovskite Solar CellsAdvanced Functional Materials, 27
-
Hua‐Shang Rao, Bai‐Xue Chen, Wenguang Li, Yang-Fan Xu, Hong-Yan Chen, D. Kuang, C. Su (2015)
Improving the Extraction of Photogenerated Electrons with SnO2 Nanocolloids for Efficient Planar Perovskite Solar CellsAdvanced Functional Materials, 25
-
Muhammad Azam, S. Yue, Rui Xu, Kong Liu, Kuankuan Ren, Yang Sun, Jun Liu, Zhijie Wang, S. Qu, Y. Lei, Zhanguo Wang (2018)
Highly efficient solar cells based on Cl incorporated tri-cation perovskite materialsJournal of Materials Chemistry, 6
-
Chien-Hung Chiang, Chun‐Guey Wu (2016)
Bulk heterojunction perovskite–PCBM solar cells with high fill factorNature Photonics, 10
-
Insung Hwang, Inyoung Jeong, Jinwoo Lee, M. Ko, K. Yong (2015)
Enhancing Stability of Perovskite Solar Cells to Moisture by the Facile Hydrophobic Passivation.ACS applied materials & interfaces, 7 31
-
Chang‐Keun Lim, Qi Li, Tianmu Zhang, T. Thomay, A. Cartwright, M. Swihart, P. Prasad (2018)
Enhanced fatigue resistance of suppressed hysteresis in perovskite solar cells by an organic crosslinkerSolar Energy Materials and Solar Cells, 176
-
Bo Chen, Mengjin Yang, Xiaojia Zheng, Congcong Wu, Wenle Li, Yongke Yan, J. Bisquert, G. Garcia‐Belmonte, K. Zhu, S. Priya (2015)
Impact of Capacitive Effect and Ion Migration on the Hysteretic Behavior of Perovskite Solar Cells.The journal of physical chemistry letters, 6 23
-
J. Heo, Min Lee, H. Han, B. Patil, J. Yu, S. Im (2016)
Highly efficient low temperature solution processable planar type CH3NH3PbI3 perovskite flexible solar cellsJournal of Materials Chemistry, 4
-
C. Eames, J. Frost, Piers Barnes, B. O'Regan, A. Walsh, M. Islam (2015)
Ionic transport in hybrid lead iodide perovskite solar cellsNature Communications, 6
-
Yang Bai, Xiangyue Meng, Shihe Yang (2018)
Interface Engineering for Highly Efficient and Stable Planar p‐i‐n Perovskite Solar CellsAdvanced Energy Materials, 8
-
S. Fernandes, A. Véron, N. Neto, F. Nüesch, J. Silva, M. Zaghete, Carlos Graeff (2016)
Nb2O5 hole blocking layer for hysteresis-free perovskite solar cellsMaterials Letters, 181
-
Bo Chen, Mengjin Yang, S. Priya, K. Zhu (2016)
Origin of J-V Hysteresis in Perovskite Solar Cells.The journal of physical chemistry letters, 7 5
-
A. Kojima, K. Teshima, Y. Shirai, T. Miyasaka (2009)
Organometal halide perovskites as visible-light sensitizers for photovoltaic cells.Journal of the American Chemical Society, 131 17
-
Guang Yang, Hongwei Lei, H. Tao, Xiaolu Zheng, Junjie Ma, Qin Liu, Weijun Ke, Zhiliang Chen, Liangbin Xiong, P. Qin, Zhao Chen, Minchao Qin, Xinhui Lu, Yanfa Yan, G. Fang (2017)
Reducing Hysteresis and Enhancing Performance of Perovskite Solar Cells Using Low-Temperature Processed Y-Doped SnO2 Nanosheets as Electron Selective Layers.Small, 13 2
-
Wenzhe Li, Haopeng Dong, Liduo Wang, Nan Li, Xudong Guo, Jiangwei Li, Y. Qiu (2014)
Montmorillonite as bifunctional buffer layer material for hybrid perovskite solar cells with protection from corrosion and retarding recombinationJournal of Materials Chemistry, 2
-
Waleed Laban, L. Etgar (2013)
Depleted hole conductor-free lead halide iodide heterojunction solar cellsEnergy and Environmental Science, 6
-
Hong Zhang, Xingang Ren, Xiwen Chen, J. Mao, Jiaqi Cheng, Yong Zhao, Yuhang Liu, Jovana Milić, W. Yin, M. Grätzel, W. Choy (2018)
Improving the stability and performance of perovskite solar cells via off-the-shelf post-device ligand treatmentEnergy and Environmental Science, 11
-
Alexander Sharenko, M. Toney (2016)
Relationships between Lead Halide Perovskite Thin-Film Fabrication, Morphology, and Performance in Solar Cells.Journal of the American Chemical Society, 138 2
-
Yi Hou, Simon Scheiner, Xiaofeng Tang, Nicola Gasparini, Moses Richter, Ning Li, P. Schweizer, Shi Chen, Haiwei Chen, C. Quiroz, Xiaoyang Du, G. Matt, A. Osvet, E. Spiecker, R. Fink, A. Hirsch, M. Halik, C. Brabec (2017)
Suppression of Hysteresis Effects in Organohalide Perovskite Solar CellsAdvanced Materials Interfaces, 4
-
William Nguyen, Colin Bailie, E. Unger, M. McGehee (2014)
Enhancing the hole-conductivity of spiro-OMeTAD without oxygen or lithium salts by using spiro(TFSI)₂ in perovskite and dye-sensitized solar cells.Journal of the American Chemical Society, 136 31
-
Jiangzhao Chen, Donghwa Lee, N. Park (2017)
Stabilizing the Ag Electrode and Reducing J-V Hysteresis through Suppression of Iodide Migration in Perovskite Solar Cells.ACS applied materials & interfaces, 9 41
-
Nakita Noel, S. Stranks, A. Abate, C. Wehrenfennig, S. Guarnera, A. Haghighirad, A. Sadhanala, G. Eperon, Sandeep Pathak, M. Johnston, A. Petrozza, L. Herz, H. Snaith (2014)
Lead-free organic–inorganic tin halide perovskites for photovoltaic applicationsEnergy and Environmental Science, 7
-
J. Heo, Myoung You, M. Chang, Wenping Yin, T. Ahn, Sang-Ju Lee, S. Sung, Dae‐Hwan Kim, S. Im (2015)
Hysteresis-less mesoscopic CH3NH3PbI3 perovskite hybrid solar cells by introduction of Li-treated TiO2 electrodeNano Energy, 15
-
S. Stranks, G. Eperon, G. Grancini, C. Menelaou, M. Alcocer, T. Leijtens, L. Herz, A. Petrozza, H. Snaith (2013)
Electron-Hole Diffusion Lengths Exceeding 1 Micrometer in an Organometal Trihalide Perovskite AbsorberScience, 342
-
Yuanyuan Zhou, Zhongmin Zhou, Min Chen, Y. Zong, Jinsong Huang, S. Pang, N. Padture (2016)
Doping and alloying for improved perovskite solar cellsJournal of Materials Chemistry, 4
-
C. Quarti, E. Mosconi, F. Angelis (2014)
Interplay of Orientational Order and Electronic Structure in Methylammonium Lead Iodide: Implications for Solar Cell OperationChemistry of Materials, 26
-
Wei Wang, Yu Liu, Yiming Zhong, Lianzhou Wang, W. Zhou, Shaobin Wang, M. Tadé, Zongping Shao (2017)
Rational Design of LaNiO3/Carbon Composites as Outstanding Platinum‐Free Photocathodes in Dye‐Sensitized Solar Cells With Enhanced Catalysis for the Triiodide Reduction Reaction, 1
-
Mingzhen Liu, M. Johnston, H. Snaith (2013)
Efficient planar heterojunction perovskite solar cells by vapour depositionNature, 501
-
Jiangsheng Li, Chaoyang Kuang, Min Zhao, Chengjie Zhao, Le Liu, Fushen Lu, Ning Wang, Changshui Huang, Chenghao Duan, Hongmei Jian, Lili Yao, T. Jiu (2018)
Ternary CuZnS Nanocrystals: Synthesis, Characterization, and Interfacial Application in Perovskite Solar Cells.Inorganic chemistry, 57 14
-
Q. Luo, Haijun Chen, Yuze Lin, Hua-yun Du, Qinzhi Hou, Feng Hao, Ning Wang, Zhanhu Guo, Jinsong Huang (2017)
Discrete Iron(III) Oxide Nanoislands for Efficient and Photostable Perovskite Solar CellsAdvanced Functional Materials, 27
-
Weijun Ke, C. Xiao, Changlei Wang, B. Saparov, Hsin‐Sheng Duan, Dewei Zhao, Zewen Xiao, P. Schulz, S. Harvey, Weiqiang Liao, Weiwei Meng, Yue Yu, A. Cimaroli, Chunsheng Jiang, K. Zhu, M. Al‐Jassim, G. Fang, D. Mitzi, Yanfa Yan (2016)
Employing Lead Thiocyanate Additive to Reduce the Hysteresis and Boost the Fill Factor of Planar Perovskite Solar CellsAdvanced Materials, 28
-
Zhiliang Chen, Guang Yang, Xiaolu Zheng, Hongwei Lei, Cong Chen, Junjie Ma, Hao Wang, G. Fang (2017)
Bulk heterojunction perovskite solar cells based on room temperature deposited hole-blocking layer: Suppressed hysteresis and flexible photovoltaic applicationJournal of Power Sources, 351
-
A. Baumann, S. Väth, P. Rieder, Michael Heiber, Kristofer Tvingstedt, V. Dyakonov (2015)
Identification of Trap States in Perovskite Solar Cells.The journal of physical chemistry letters, 6 12
-
J. Heo, Dae Song, S. Im (2014)
Planar CH3NH3PbBr3 Hybrid Solar Cells with 10.4% Power Conversion Efficiency, Fabricated by Controlled Crystallization in the Spin‐Coating ProcessAdvanced Materials, 26
-
C. Stoumpos, D. Cao, D. Clark, Joshua Young, J. Rondinelli, J. Jang, J. Hupp, M. Kanatzidis (2016)
Ruddlesden-Popper Hybrid Lead Iodide Perovskite 2D Homologous SemiconductorsChemistry of Materials, 28
-
W. Chen, K. Sun, Chaoyang Ma, Chongqian Leng, Jiehao Fu, Lijun Hu, Meng Li, Ming Wang, Zhigang Zang, Xiaosheng Tang, Haofei Shi, Shirong Lu (2018)
Eliminating J-V hysteresis in perovskite solar cells via defect controllingOrganic Electronics
-
Yanhe Zhang, Jinguang Cai, Yurong Ma, L. Qi (2017)
Mesocrystalline TiO2 nanosheet arrays with exposed {001} facets: Synthesis via topotactic transformation and applications in dye-sensitized solar cellsNano Research, 10
-
Dongqin Bi, C. Yi, Jingshan Luo, Jean-David Décoppet, Fei Zhang, S. Zakeeruddin, Xiong Li, A. Hagfeldt, M. Grätzel (2016)
Polymer-templated nucleation and crystal growth of perovskite films for solar cells with efficiency greater than 21%Nature Energy, 1
-
Jin‐Wook Lee, Seul-Gi Kim, Sang-Hoon Bae, Do‐Kyoung Lee, Oliver Lin, Yang Yang, N. Park (2017)
The Interplay between Trap Density and Hysteresis in Planar Heterojunction Perovskite Solar Cells.Nano letters, 17 7
-
Junsheng Luo, Jianxing Xia, Hua Yang, Lingling Chen, Zhongquan Wan, Fei Han, H. Malik, Xu-hui Zhu, Chunyang Jia (2018)
Toward high-efficiency, hysteresis-less, stable perovskite solar cells: unusual doping of a hole-transporting material using a fluorine-containing hydrophobic Lewis acidEnergy and Environmental Science, 11
-
Junsheng Luo, Chunyang Jia, Zhongquan Wan, Fei Han, Bowen Zhao, Ruilin Wang (2017)
The novel dopant for hole-transporting material opens a new processing route to efficiently reduce hysteresis and improve stability of planar perovskite solar cellsJournal of Power Sources, 342
-
T. Leijtens, G. Eperon, Nakita Noel, S. Habisreutinger, A. Petrozza, H. Snaith (2015)
Stability of Metal Halide Perovskite Solar CellsAdvanced Energy Materials, 5
-
Woon Yang, Byung-Wook Park, E. Jung, N. Jeon, Young Kim, Dong Lee, Seong Shin, Jangwon Seo, E. Kim, J. Noh, S. Seok (2017)
Iodide management in formamidinium-lead-halide–based perovskite layers for efficient solar cellsScience, 356
-
Kai Wang, Chang Liu, P. Du, Jie Zheng, X. Gong (2015)
Bulk heterojunction perovskite hybrid solar cells with large fill factorEnergy and Environmental Science, 8
-
T. Leijtens, I.-Kang Ding, T. Giovenzana, J. Bloking, M. McGehee, A. Sellinger (2012)
Hole transport materials with low glass transition temperatures and high solubility for application in solid-state dye-sensitized solar cells.ACS nano, 6 2
-
J. Heo, S. Im (2016)
Highly reproducible, efficient hysteresis-less CH3NH3PbI(3-x)Cl(x) planar hybrid solar cells without requiring heat-treatment.Nanoscale, 8 5
-
Haonan Si, Qingliang Liao, Z. Kang, Yang Ou, Jingjing Meng, Yichong Liu, Zheng Zhang, Yue Zhang (2017)
Deciphering the NH4PbI3 Intermediate Phase for Simultaneous Improvement on Nucleation and Crystal Growth of PerovskiteAdvanced Functional Materials, 27
-
Shen Wang, Wen Yuan, Y. Meng (2015)
Spectrum-Dependent Spiro-OMeTAD Oxidization Mechanism in Perovskite Solar Cells.ACS applied materials & interfaces, 7 44
-
Michael Saliba, Taisuke Matsui, Ji‐Youn Seo, Konrad Domanski, Juan‐Pablo Correa‐Baena, M. Nazeeruddin, S. Zakeeruddin, W. Tress, A. Abate, A. Hagfeldt, M. Grätzel (2016)
Cesium-containing triple cation perovskite solar cells: improved stability, reproducibility and high efficiency† †Electronic supplementary information (ESI) available. See DOI: 10.1039/c5ee03874j Click here for additional data file.Energy & Environmental Science, 9
-
E. Anaraki, A. Kermanpur, L. Steier, Konrad Domanski, Taisuke Matsui, W. Tress, Michael Saliba, A. Abate, M. Grätzel, A. Hagfeldt, Juan‐Pablo Correa‐Baena (2016)
Highly efficient and stable planar perovskite solar cells by solution-processed tin oxideEnergy and Environmental Science, 9
-
Chi Zhang, Hao Tian, Dong Yang, J. Sunarso, Jian Liu, Shaomin Liu (2016)
Enhanced CO2 Resistance for Robust Oxygen Separation Through Tantalum-doped Perovskite Membranes.ChemSusChem, 9 5
-
Zhao Hu, Jingsheng Miao, Tingting Li, Ming Liu, I. Murtaza, H. Meng (2018)
Reduced Interface Losses in Inverted Perovskite Solar Cells by Using a Simple Dual-Functional Phenanthroline DerivativeNano Energy, 43
-
D. Yao, Chunmei Zhang, N. Pham, Yaohong Zhang, V. Tiong, A. Du, Q. Shen, G. Wilson, Hongxia Wang (2018)
Hindered Formation of Photoinactive δ-FAPbI3 Phase and Hysteresis-Free Mixed-Cation Planar Heterojunction Perovskite Solar Cells with Enhanced Efficiency via Potassium Incorporation.The journal of physical chemistry letters, 9 8
-
Caleb Boyd, Rongrong Cheacharoen, Kevin Bush, Rohit Prasanna, T. Leijtens, M. McGehee (2018)
Barrier Design to Prevent Metal-Induced Degradation and Improve Thermal Stability in Perovskite Solar CellsACS Energy Letters
-
Zhen Li, C. Xiao, Ye Yang, S. Harvey, Dong Kim, Jeffrey Christians, Mengjin Yang, P. Schulz, S. Nanayakkara, Chunsheng Jiang, J. Luther, J. Berry, M. Beard, M. Al‐Jassim, K. Zhu (2017)
Extrinsic ion migration in perovskite solar cellsEnergy and Environmental Science, 10
-
Yuchuan Shao, Zhengguo Xiao, Cheng Bi, Yong-bo Yuan, Jinsong Huang (2014)
Origin and elimination of photocurrent hysteresis by fullerene passivation in CH3NH3PbI3 planar heterojunction solar cellsNature Communications, 5
-
M. Du (2014)
Efficient carrier transport in halide perovskites: theoretical perspectivesJournal of Materials Chemistry, 2
-
Ke Chen, Pan Wu, Wenqiang Yang, Rui Su, Deying Luo, Xiaoyu Yang, Yongguang Tu, Rui Zhu, Q. Gong (2018)
Low-dimensional perovskite interlayer for highly efficient lead-free formamidinium tin iodide perovskite solar cellsNano Energy
-
Jiajiu Ye, Haiying Zheng, Liangzheng Zhu, Guozhen Liu, Xuhui Zhang, T. Hayat, Xu Pan, Songyuan Dai (2017)
Enhanced Moisture Stability of Perovskite Solar Cells With Mixed-Dimensional and Mixed-Compositional Light-Absorbing Materials, 1
-
Qi Chen, Huanping Zhou, Tze‐Bin Song, Song Luo, Z. Hong, Hsin‐Sheng Duan, L. Dou, Yongsheng Liu, Yang Yang (2014)
Controllable self-induced passivation of hybrid lead iodide perovskites toward high performance solar cells.Nano letters, 14 7
-
G. Nemnes, C. Beşleagă, V. Stancu, L. Leonat, L. Pintilie, K. Torfason, M. Ilkov, A. Manolescu, I. Pintilie (2017)
Normal and Inverted Hysteresis in Perovskite Solar CellsJournal of Physical Chemistry C, 121
-
Rafael Sánchez, Victoria González‐Pedro, Jin‐Wook Lee, N. Park, Y. Kang, I. Mora‐Seró, J. Bisquert (2014)
Slow Dynamic Processes in Lead Halide Perovskite Solar Cells. Characteristic Times and Hysteresis.The journal of physical chemistry letters, 5 13
-
S. Colella, E. Mosconi, G. Pellegrino, A. Alberti, Valentino Guerra, S. Masi, A. Listorti, A. Rizzo, G. Condorelli, F. Angelis, G. Gigli (2014)
Elusive Presence of Chloride in Mixed Halide Perovskite Solar Cells.The journal of physical chemistry letters, 5 20
-
Ye Zhang, Mingzhen Liu, G. Eperon, T. Leijtens, David McMeekin, Michael Saliba, Wei Zhang, M. Bastiani, A. Petrozza, L. Herz, M. Johnston, Hong Lin, H. Snaith (2015)
Charge selective contacts, mobile ions and anomalous hysteresis in organic-inorganic perovskite solar cellsMaterials horizons, 2
-
G. Giorgi, J. Fujisawa, H. Segawa, K. Yamashita (2013)
Small Photocarrier Effective Masses Featuring Ambipolar Transport in Methylammonium Lead Iodide Perovskite: A Density Functional Analysis.The journal of physical chemistry letters, 4 24
-
J. Baena, L. Steier, W. Tress, Michael Saliba, S. Neutzner, S. Neutzner, Taisuke Matsui, F. Giordano, T. Jacobsson, A. Kandada, S. Zakeeruddin, A. Petrozza, A. Abate, M. Nazeeruddin, M. Grätzel, A. Hagfeldt (2015)
Highly efficient planar perovskite solar cells through band alignment engineeringEnergy and Environmental Science, 8
-
J. Azpiroz, E. Mosconi, J. Bisquert, F. Angelis (2015)
Defect migration in methylammonium lead iodide and its role in perovskite solar cell operationEnergy and Environmental Science, 8
-
Haixia Rao, Weihai Sun, Senyun Ye, Weibo Yan, Yunlong Li, Haitao Peng, Zhiwei Liu, Z. Bian, Chunhui Huang (2016)
Solution-Processed CuS NPs as an Inorganic Hole-Selective Contact Material for Inverted Planar Perovskite Solar Cells.ACS applied materials & interfaces, 8 12
-
T. Leijtens, G. Eperon, Sandeep Pathak, A. Abate, Michael Lee, H. Snaith (2013)
Overcoming ultraviolet light instability of sensitized TiO2 with meso-superstructured organometal tri-halide perovskite solar cellsNature Communications, 4
-
Hui‐Seon Kim, S. Im, N. Park (2014)
Organolead Halide Perovskite: New Horizons in Solar Cell ResearchJournal of Physical Chemistry C, 118
-
Wei Wang, M. Tadé, Zongping Shao (2015)
Research progress of perovskite materials in photocatalysis- and photovoltaics-related energy conversion and environmental treatment.Chemical Society reviews, 44 15
-
Zonglong Zhu, Yang Bai, Teng Zhang, Zhike Liu, Xia Long, Zhanhua Wei, Zilong Wang, Lixia Zhang, Jiannong Wang, Feng Yan, Shihe Yang (2014)
High-performance hole-extraction layer of sol-gel-processed NiO nanocrystals for inverted planar perovskite solar cells.Angewandte Chemie, 53 46
-
Zhonggao Zhou, Limei Huang, Xiaofei Mei, Yan Zhao, Zhenghuan Lin, Hongyu Zhen, Q. Ling (2016)
Highly reproducible and photocurrent hysteresis-less planar perovskite solar cells with a modified solvent annealing methodSolar Energy, 136
-
Weiran Zhou, Jieming Zhen, Qing Liu, Z. Fang, Dan Li, Pengcheng Zhou, Tao Chen, Shangfeng Yang (2017)
Successive surface engineering of TiO2 compact layers via dual modification of fullerene derivatives affording hysteresis-suppressed high-performance perovskite solar cellsJournal of Materials Chemistry, 5
-
Wei Wang, Xiaomin Xu, Yu Liu, Yijun Zhong, Zongping Shao (2018)
Rational Design of Metal Oxide–Based Cathodes for Efficient Dye‐Sensitized Solar CellsAdvanced Energy Materials, 8
-
Haejun Yu, Jong Lee, Juyoung Yun, Kisu Lee, Jaehoon Ryu, Jungsup Lee, Doyk Hwang, Seong Kim, J. Jang (2017)
Outstanding Performance of Hole‐Blocking Layer‐Free Perovskite Solar Cell Using Hierarchically Porous Fluorine‐Doped Tin Oxide SubstrateAdvanced Energy Materials, 7
-
Jing Gao, Ying Yang, Zhang Zheng, Jingyuan Yan, Zehua Lin, Xueyi Guo (2016)
Bifacial quasi-solid-state dye-sensitized solar cells with Poly (vinyl pyrrolidone)/polyaniline transparent counter electrodeNano Energy, 26
-
G. Sepalage, Steffen Meyer, Alexander Pascoe, A. Scully, Fuzhi Huang, U. Bach, Yi-bing Cheng, L. Spiccia (2015)
Copper(I) Iodide as Hole‐Conductor in Planar Perovskite Solar Cells: Probing the Origin of J–V HysteresisAdvanced Functional Materials, 25
-
A. Pockett, G. Eperon, Nobuya Sakai, H. Snaith, L. Peter, P. Cameron (2016)
Microseconds, milliseconds and seconds: deconvoluting the dynamic behaviour of planar perovskite solar cells.Physical chemistry chemical physics : PCCP, 19 8
-
E. Edri, Saar Kirmayer, A. Henning, S. Mukhopadhyay, K. Gartsman, Y. Rosenwaks, G. Hodes, D. Cahen (2014)
Why lead methylammonium tri-iodide perovskite-based solar cells require a mesoporous electron transporting scaffold (but not necessarily a hole conductor).Nano letters, 14 2
-
Zhenbao Zhang, Yinlong Zhu, Yijun Zhong, Wei Zhou, Zongping Shao (2017)
Anion Doping: A New Strategy for Developing High‐Performance Perovskite‐Type Cathode Materials of Solid Oxide Fuel CellsAdvanced Energy Materials, 7
-
Yaowen Li, Yue Zhao, Qi Chen, Yanghui Yang, Yongsheng Liu, Z. Hong, Zonghao Liu, Y. Hsieh, L. Meng, Yongfang Li, Yanghui Yang (2015)
Multifunctional Fullerene Derivative for Interface Engineering in Perovskite Solar Cells.Journal of the American Chemical Society, 137 49
-
X. Yin, Jianhua Han, Yu Zhou, Hui Nan, Zhibo Yao, Meiqian Tai, Xin Li, Jianbao Li, Ning Wang, Hong Lin (2018)
Inverted Perovskite Solar Cells with Efficient Mixed-Fullerene Derivative Charge Extraction LayersChemistrySelect
-
Yinghong Hu, E. Hutter, P. Rieder, Irene Grill, J. Hanisch, Meltem Aygüler, A. Hufnagel, M. Handloser, T. Bein, A. Hartschuh, Kristofer Tvingstedt, V. Dyakonov, A. Baumann, T. Savenije, Michiel Petrus, P. Docampo (2018)
Understanding the Role of Cesium and Rubidium Additives in Perovskite Solar Cells: Trap States, Charge Transport, and RecombinationAdvanced Energy Materials, 8
-
Rongrong Cheacharoen, Nicholas Rolston, D. Harwood, Kevin Bush, R. Dauskardt, M. McGehee (2018)
Design and understanding of encapsulated perovskite solar cells to withstand temperature cyclingEnergy and Environmental Science, 11
-
K. Mazzio, C. Luscombe (2015)
The future of organic photovoltaics.Chemical Society reviews, 44 1
-
Wangen Zhao, Dong Yang, Zhou Yang, S. Liu (2017)
Zn-doping for reduced hysteresis and improved performance of methylammonium lead iodide perovskite hybrid solar cellsMaterials Today Energy, 5
-
Dong Yang, Ruixia Yang, X. Ren, Xuejie Zhu, Zhou Yang, Can Li, S. Liu (2016)
Hysteresis‐Suppressed High‐Efficiency Flexible Perovskite Solar Cells Using Solid‐State Ionic‐Liquids for Effective Electron TransportAdvanced Materials, 28
-
Yanhao Yu, Jianye Li, D. Geng, Jialiang Wang, Lushuai Zhang, Trisha Andrew, M. Arnold, Xudong Wang (2015)
Development of lead iodide perovskite solar cells using three-dimensional titanium dioxide nanowire architectures.ACS nano, 9 1
-
Xin Li, Junyou Yang, Q. Jiang, Huixia Lai, S. Li, Jiwu Xin, Weijing Chu, J. Hou (2018)
Low-Temperature Solution-Processed ZnSe Electron Transport Layer for Efficient Planar Perovskite Solar Cells with Negligible Hysteresis and Improved Photostability.ACS nano, 12 6
-
Guannan Yin, Jia-ping Ma, Hong Jiang, Juan Li, Dong Yang, Fei Gao, Jinghui Zeng, Zhike Liu, S. Liu (2017)
Enhancing Efficiency and Stability of Perovskite Solar Cells through Nb-Doping of TiO2 at Low Temperature.ACS applied materials & interfaces, 9 12
-
Liangbin Xiong, Minchao Qin, Cong Chen, Jian Wen, Guang Yang, Yaxiong Guo, Junjie Ma, Qi Zhang, P. Qin, Songzhan Li, G. Fang (2018)
Fully High‐Temperature‐Processed SnO2 as Blocking Layer and Scaffold for Efficient, Stable, and Hysteresis‐Free Mesoporous Perovskite Solar CellsAdvanced Functional Materials, 28
-
H. Snaith, L. Schmidt‐Mende (2007)
Advances in Liquid‐Electrolyte and Solid‐State Dye‐Sensitized Solar CellsAdvanced Materials, 19
-
Jing Cao, Binghui Wu, Ruihao Chen, Youyunqi Wu, Yong Hui, B. Mao, N. Zheng (2018)
Efficient, Hysteresis‐Free, and Stable Perovskite Solar Cells with ZnO as Electron‐Transport Layer: Effect of Surface PassivationAdvanced Materials, 30
- Publisher
- Wiley
- Copyright
- "© 2019 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim"
- ISSN
- 1614-6832
- eISSN
- 1614-6840
- DOI
- 10.1002/aenm.201803017
- Publisher site
- See Article on Publisher Site
Abstract
Organic–inorganic hybrid perovskite solar cells (PSCs) have become a promising candidate in the photovoltaic field due to their high power conversion efficiency and low material cost. However, the development of PSCs is limited by their poor stability under practical conditions in the presence of oxygen, moisture, sunlight, heat, and the current–voltage (I–V) hysteresis. In particular, the hysteretic I–V issue casts doubt on the validity of the photovoltaic performance results that are achieved, making it difficult to evaluate the authentic performance of PSCs. This review article focuses on understanding the I–V hysteresis behavior in PSCs and on exploring the possible reasons leading to this hysteresis phenomenon. The various strategies attempted to suppress the I–V hysteresis in PSCs are summarized, and a brief future recommendation is provided.
Journal
Advanced Energy Materials – Wiley
Published: Apr 1, 2019
Keywords: ; ;