Pseudohalide substitution and potassium doping in FA_(0.98)K_(0.02)Pb(SCN)_2I for high-stability hole-conductor-free perovskite solar cells

Xia Yuren; Zhao Cheng; Zhao Peiyang; Mao Lingyun; Ding Yucheng; Hong Daocheng; Tian Yuxi; Yan Wensheng; Jin Zhong

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Pseudohalide substitution and potassium doping in FA_(0.98)K_(0.02)Pb(SCN)_2I for high-stability hole-conductor-free perovskite solar cells

机译：用于高稳定性孔导体钙钛矿太阳能电池的Fa_（0.98）K_（0.02）k_（0.02）Pb（0.02）Pb（0.02）Pb（0.02）Pb（SCN）_2I的伪织物取代和钾掺杂

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Hybrid organic-inorganic halide perovskite solar cells (PSCs) have achieved intriguingly high photoelectric conversion efficiencies (PCEs), but their operational stability is still not satisfactory owing to their vulnerability to moisture and heat. Herein, we report the introduction of pseudohalide thiocyanate ions and potassium dopants into formamidinium lead triiodide (FAPbI3) to obtain a new class of pseudohalide-substituted lead halide perovskites FAPb(SCN)2I that can be prepared in ambient air and exhibit broad-range light absorption. Through the introduction of K+-cation doping, hole-conductor-free PSCs based on a FA0.98K0.02Pb(SCN)2I perovskite light absorber and a low-cost, screen-printable carbon-based counter electrode exhibited a PCE of 13.39%. Importantly, the FA0.98K0.02Pb(SCN)2I-based hole-conductor-free PSCs exhibited an 88% PCE retention even after continuous heating at 100 ?C for 1020 h, indicating excellent thermal stability. This study suggests that the compositional engineering of non-iodine X-site pseudohalide anion substitution and A-site cation doping hold great promise for improving the stability of PSCs.

机译：杂交有机 - 无机卤化物钙钛矿太阳能电池（PSCs）已经取得了可观的高光电转换效率（PCE），但由于其脆弱性和热量的脆弱性，它们的操作稳定性仍然不令人满意。在此，我们将伪卤素硫代氰酸酯离子和钾掺杂剂的引入甲脒铅三碘化物（FAPBI3）中的引入，以获得新类伪卤化物取代的卤化卤酰钙钙酸盐FAPB（SCN）2I，其可以在环境空气中制备，并且展示宽范围的光吸收。通过引入K + - 化掺杂，基于FA0.98K0.02PB（SCN）2I钙钛矿光吸收器和低成本的无孔导体的PSC，丝网可印刷的基于碳基对应电极13.39％。重要的是，即使在100Ω℃下连续加热1020小时，也表现出88％的基于孔导体的PSC的Fa0.98K0.02PB（SCN）的PCE保持率为88％的PCE保留，表明出色的热稳定性。本研究表明，非碘X位伪织物阴离子替代和现场阳离子掺杂的组成工程对提高PSC的稳定性具有巨大的希望。

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来源
《Journal of power sources》 |2021年第15期|229781.1-229781.8|共8页
作者
Xia Yuren; Zhao Cheng; Zhao Peiyang; Mao Lingyun; Ding Yucheng; Hong Daocheng; Tian Yuxi; Yan Wensheng; Jin Zhong;
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Nanjing Univ MOE Key Lab High Performance Polymer Mat & Techno MOE Key Lab Mesoscop Chem Sch Chem & Chem Engn Jiangsu Key Lab Adv Organ Ma Nanjing 210023 Peoples R China|Nanjing Univ Shenzhen Res Inst Shenzhen 518063 Peoples R China;

Nanjing Univ MOE Key Lab High Performance Polymer Mat & Techno MOE Key Lab Mesoscop Chem Sch Chem & Chem Engn Jiangsu Key Lab Adv Organ Ma Nanjing 210023 Peoples R China|Nanjing Univ Shenzhen Res Inst Shenzhen 518063 Peoples R China;

Nanjing Univ MOE Key Lab High Performance Polymer Mat & Techno MOE Key Lab Mesoscop Chem Sch Chem & Chem Engn Jiangsu Key Lab Adv Organ Ma Nanjing 210023 Peoples R China|Nanjing Univ Shenzhen Res Inst Shenzhen 518063 Peoples R China;

Nanjing Univ MOE Key Lab High Performance Polymer Mat & Techno MOE Key Lab Mesoscop Chem Sch Chem & Chem Engn Jiangsu Key Lab Adv Organ Ma Nanjing 210023 Peoples R China|Nanjing Univ Shenzhen Res Inst Shenzhen 518063 Peoples R China;

Nanjing Univ MOE Key Lab High Performance Polymer Mat & Techno MOE Key Lab Mesoscop Chem Sch Chem & Chem Engn Jiangsu Key Lab Adv Organ Ma Nanjing 210023 Peoples R China|Nanjing Univ Shenzhen Res Inst Shenzhen 518063 Peoples R China;

Nanjing Univ MOE Key Lab High Performance Polymer Mat & Techno MOE Key Lab Mesoscop Chem Sch Chem & Chem Engn Jiangsu Key Lab Adv Organ Ma Nanjing 210023 Peoples R China;

Nanjing Univ MOE Key Lab High Performance Polymer Mat & Techno MOE Key Lab Mesoscop Chem Sch Chem & Chem Engn Jiangsu Key Lab Adv Organ Ma Nanjing 210023 Peoples R China;

Karlsruhe Inst Technol Inst Microstruct Technol D-76344 Karlsruhe Germany;

Nanjing Univ MOE Key Lab High Performance Polymer Mat & Techno MOE Key Lab Mesoscop Chem Sch Chem & Chem Engn Jiangsu Key Lab Adv Organ Ma Nanjing 210023 Peoples R China|Nanjing Univ Shenzhen Res Inst Shenzhen 518063 Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
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关键词
Perovskite solar cells; Pseudohalide substitution; Hole-conductor-free; High-stability;

机译：Perovskite太阳能电池;伪卤化物替代;无孔导体;高稳定性;

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机译：使用伪卤化物Pb（SCN）（2）添加剂有效控制CH3NH3PbI3钙钛矿型太阳能电池的晶粒尺寸
2. Tailoring Crystal Structure of FA_(0.83)Cs_(0.17)Pbl_3 Perovskite Through Cuanidinium Doping for Enhanced Performance and Tunable Hysteresis of Planar Perovskite Solar Cells [J] . Ngoc Duy Pham, Zhang Chunmei, Tiong Vincent Tiing, Advanced Functional Materials . 2019,第1期

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4. Research on Charge Accumulation and Transport in Hole-conductor-free Perovskite (CH_3NH_3PbI_2Cl) -based Nanostructure Solar Cells [C] . Shuai Ma, Lei Cao, Yang Li, Wide bandgap semiconductor materials and devices 15 . 2014

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5. Improved Thermal Stability of Cesium-doped Perovskite Films with PMMA for Solar Cell Application [D] . Gausin, Christine M. 2018

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6. Improving Two-Step Prepared CH3NH3PbI3 Perovskite Solar Cells by Co-Doping Potassium Halide and Water in PbI2 Layer [O] . Hsuan-Ta Wu, Yu-Ting Cheng, Ching-Chich Leu, 2019

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Pseudohalide substitution and potassium doping in FA_(0.98)K_(0.02)Pb(SCN)_2I for high-stability hole-conductor-free perovskite solar cells

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