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Yong Zhao, Hong Zhang, Xingang Ren, H. Zhu, Zhanfeng Huang, Fei Ye, Dan Ouyang, K. Cheah, A. Jen, W. Choy (2018)
Thick TiO2-Based Top Electron Transport Layer on Perovskite for Highly Efficient and Stable Solar CellsACS Energy Letters
T. Kirchartz, F. Deledalle, P. Tuladhar, J. Durrant, J. Nelson (2013)
On the Differences between Dark and Light Ideality Factor in Polymer:Fullerene Solar CellsJournal of Physical Chemistry Letters, 4
N. Park (2013)
Organometal Perovskite Light Absorbers Toward a 20% Efficiency Low-Cost Solid-State Mesoscopic Solar CellJournal of Physical Chemistry Letters, 4
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
Tae-Youl Yang, N. Jeon, H. Shin, Seong Shin, Young Kim, Jangwon Seo (2019)
Achieving Long‐Term Operational Stability of Perovskite Solar Cells with a Stabilized Efficiency Exceeding 20% after 1000 hAdvanced Science, 6
Qi Dong, Fang‐zhou Liu, Man Wong, H. Tam, A. Djurišić, A. Ng, C. Surya, W. Chan, A. Ng (2016)
Encapsulation of Perovskite Solar Cells for High Humidity Conditions.ChemSusChem, 9 18
Tanghao Liu, Yuanyuan Zhou, Zhen Li, Lin Zhang, Minggang Ju, Deying Luo, Ye Yang, Mengjin Yang, Dong Kim, Wenqiang Yang, N. Padture, M. Beard, X. Zeng, K. Zhu, Q. Gong, Rui Zhu (2018)
Stable Formamidinium‐Based Perovskite Solar Cells via In Situ Grain EncapsulationAdvanced Energy Materials, 8
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
A. Walsh, D. Scanlon, Shiyou Chen, X. Gong, S. Wei (2014)
Self-Regulation Mechanism for Charged Point Defects in Hybrid Halide PerovskitesAngewandte Chemie (International Ed. in English), 54
Yinghong Hu, Meltem Aygüler, Michiel Petrus, T. Bein, P. Docampo (2017)
Impact of Rubidium and Cesium Cations on the Moisture Stability of Multiple-Cation Mixed-Halide PerovskitesACS energy letters, 2
Nicholas Aristidou, I. Sánchez-Molina, Thana Chotchuangchutchaval, Michael Brown, L. Martínez, T. Rath, S. Haque (2015)
The Role of Oxygen in the Degradation of Methylammonium Lead Trihalide Perovskite Photoactive Layers.Angewandte Chemie, 54 28
C. Ponseca, T. Savenije, M. Abdellah, Kaibo Zheng, A. Yartsev, Tobjörn Pascher, T. Harlang, P. Chábera, T. Pullerits, A. Stepanov, J. Wolf, V. Sundström (2014)
Organometal halide perovskite solar cell materials rationalized: ultrafast charge generation, high and microsecond-long balanced mobilities, and slow recombination.Journal of the American Chemical Society, 136 14
N. Pellet, P. Gao, G. Gregori, Tae-Youl Yang, M. Nazeeruddin, J. Maier, M. Grätzel (2014)
Mixed-organic-cation perovskite photovoltaics for enhanced solar-light harvesting.Angewandte Chemie, 53 12
Marina Filip, G. Eperon, H. Snaith, F. Giustino (2014)
Steric engineering of metal-halide perovskites with tunable optical band gapsNature Communications, 5
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
Konrad Domanski, Essa Alharbi, A. Hagfeldt, M. Grätzel, W. Tress (2018)
Systematic investigation of the impact of operation conditions on the degradation behaviour of perovskite solar cellsNature Energy, 3
N. Tiep, Zhiliang Ku, H. Fan (2016)
Recent Advances in Improving the Stability of Perovskite Solar CellsAdvanced Energy Materials, 6
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
Sergiu Draguta, O. Sharia, Seog Yoon, M. Brennan, Y. Morozov, J. Manser, P. Kamat, W. Schneider, M. Kuno (2017)
Rationalizing the light-induced phase separation of mixed halide organic–inorganic perovskitesNature Communications, 8
G. Grancini, C. Roldán-Carmona, I. Zimmermann, E. Mosconi, X. Lee, David Martineau, Stéphanie Narbey, F. Oswald, F. Angelis, Michael Graetzel, M. Nazeeruddin (2017)
One-Year stable perovskite solar cells by 2D/3D interface engineeringNature Communications, 8
Lang Liu, Sheng Huang, Yue Lu, Pengfei Liu, Yizhou Zhao, Congbo Shi, Siyu Zhang, Jiafeng Wu, Haizheng Zhong, Manling Sui, Huanping Zhou, Haibo Jin, Yujing Li, Qi Chen (2018)
Grain‐Boundary “Patches” by In Situ Conversion to Enhance Perovskite Solar Cells StabilityAdvanced Materials, 30
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
Jiawen Xiao, Sai Ma, S. Yu, Chenxiao Zhou, Pengfei Liu, Yihua Chen, Huanping Zhou, Yujing Li, Qi Chen (2018)
Ligand engineering on CdTe quantum dots in perovskite solar cells for suppressed hysteresisNano Energy, 46
Ming-Guang Ren, Jianan Wang, Xinrui Xie, J. Zhang, Peng Wang (2019)
Double-Helicene-Based Hole-Transporter for Perovskite Solar Cells with 22% Efficiency and Operation DurabilityACS Energy Letters
J. Im, I. Jang, N. Pellet, M. Grätzel, N. Park (2014)
Growth of CH3NH3PbI3 cuboids with controlled size for high-efficiency perovskite solar cells.Nature nanotechnology, 9 11
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
Zihang Huang, Xuefeng Wang, Yingmin Li, Marcella Günther, Sophia Valenzuela, P. Parikh, Amanda Cabreros, Wei Xiong, Y. Meng (2018)
the Role of tBP-LiTFSI Complexes in Perovskite Solar Cells.
Yuanyuan Han, Steffen Meyer, Yasmina Dkhissi, Karl Weber, J. Pringle, U. Bach, L. Spiccia, Yi-bing Cheng (2015)
Degradation observations of encapsulated planar CH3NH3PbI3 perovskite solar cells at high temperatures and humidityJournal of Materials Chemistry, 3
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
Micaela Crespo-Quesada, Luis Pazos-Outón, J. Warnan, Moritz Kuehnel, R. Friend, E. Reisner (2016)
Metal-encapsulated organolead halide perovskite photocathode for solar-driven hydrogen evolution in waterNature Communications, 7
Lei Shi, T. Young, Jincheol Kim, Yun Sheng, Lei Wang, Yifeng Chen, Zhiqiang Feng, M. Keevers, X. Hao, P. Verlinden, M. Green, A. Ho-baillie (2017)
Accelerated Lifetime Testing of Organic-Inorganic Perovskite Solar Cells Encapsulated by Polyisobutylene.ACS applied materials & interfaces, 9 30
Young Kim, N. Jeon, J. Noh, Woon Yang, Jangwon Seo, J. Yun, A. Ho-baillie, Shujuan Huang, M. Green, J. Seidel, T. Ahn, S. Seok (2016)
Beneficial Effects of PbI2 Incorporated in Organo‐Lead Halide Perovskite Solar CellsAdvanced Energy Materials, 6
Nicholas Aristidou, C. Eames, I. Sánchez-Molina, Xiangnan Bu, J. Kosco, M. Islam, S. Haque (2017)
Fast oxygen diffusion and iodide defects mediate oxygen-induced degradation of perovskite solar cellsNature Communications, 8
Huanping Zhou, Qi Chen, Gang Li, Song Luo, T. Song, Hsin‐Sheng Duan, Z. Hong, J. You, Yongsheng Liu, Yang Yang (2014)
Interface engineering of highly efficient perovskite solar cellsScience, 345
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
A. Bowring, Luca Bertoluzzi, B. O'Regan, M. McGehee (2018)
Reverse Bias Behavior of Halide Perovskite Solar CellsAdvanced Energy Materials, 8
Caleb Boyd, Rongrong Cheacharoen, T. Leijtens, M. McGehee (2018)
Understanding Degradation Mechanisms and Improving Stability of Perovskite Photovoltaics.Chemical reviews, 119 5
Jianbing Huang, Shunquan Tan, P. Lund, Huanping Zhou (2017)
Impact of H2O on organic–inorganic hybrid perovskite solar cellsEnergy and Environmental Science, 10
K. Spence, R. Venditti, O. Rojas, J. Pawlak, M. Hubbe (2011)
WATER VAPOR BARRIER PROPERTIES OF COATED AND FILLED MICROFIBRILLATED CELLULOSE COMPOSITE FILMSBioresources, 6
M. Saidaminov, Junghwan Kim, Ankit Jain, Rafael Quintero‐Bermudez, H. Tan, Guankui Long, F. Tan, Andrew Johnston, Yicheng Zhao, O. Voznyy, E. Sargent (2018)
Suppression of atomic vacancies via incorporation of isovalent small ions to increase the stability of halide perovskite solar cells in ambient airNature Energy, 3
Taame Berhe, Wei‐Nien Su, Ching-Hsiang Chen, Chun-Jern Pan, Ju-Hsiang Cheng, Hung-Ming Chen, Meng‐Che Tsai, Liang-Yih Chen, Amare Dubale, B. Hwang (2016)
Organometal halide perovskite solar cells: degradation and stabilityEnergy and Environmental Science, 9
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. Tan, Ankit Jain, O. Voznyy, Xinzheng Lan, F. Arquer, James Fan, Rafael Quintero‐Bermudez, M. Yuan, Bo Zhang, Yicheng Zhao, Fengjia Fan, Peicheng Li, Li Quan, Yongbiao Zhao, Zhenghong Lu, Zhenyu Yang, S. Hoogland, Edward Sargent (2017)
Efficient and stable solution-processed planar perovskite solar cells via contact passivationScience, 355
T. Hook (2017)
Power and Technology Scaling into the 5 nm Node with Stacked NanosheetsJoule, 2
Boping Yang, Dan Ouyang, Zhanfeng Huang, Xingang Ren, Hong Zhang, W. Choy (2019)
Multifunctional Synthesis Approach of In:CuCrO2 Nanoparticles for Hole Transport Layer in High‐Performance Perovskite Solar CellsAdvanced Functional Materials, 29
Improving device lifetime is one of the critical challenges for the practical use of metal halide perovskite solar cells (PSCs), wherein a reliable encapsulation is indispensable. Herein, based on an in‐depth understanding of the degradation mechanism for the PSCs, a solvent‐free and low‐temperature melting encapsulation technique, by employing low‐cost paraffin as the encapsulant that is compatible with perovskite absorbers, is demonstrated. The encapsulation strategy enables the full encapsulating operations to be undertaken under an ambient environment. It is found that the strategy not only removes residual oxygen and moisture to prevent the perovskite from phase segregation, but also suppresses the species volatilization to impede absorber decomposition, enabling a PSC devices with good thermal and moisture stability. As a result, the as‐encapsulated PSCs achieve a 1000 h operational lifetime for the encapsulated device at continuous maximum power point output under an ambient environment. This work paves the way for scalable and robust encapsulation strategy feasible to hybrid perovskite optoelectronics in an economic manner.
Advanced Energy Materials – Wiley
Published: Mar 1, 2020
Keywords: ; ; ; ;
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