{"id":240621,"date":"2022-08-05T06:23:22","date_gmt":"2022-08-04T22:23:22","guid":{"rendered":"\/\/m.iemloyee.com\/?p=240621"},"modified":"2022-08-04T16:23:30","modified_gmt":"2022-08-04T08:23:30","slug":"%e6%9d%8e%e5%ad%9d%e5%b3%b0%e5%8f%8a%e5%90%88%e4%bd%9c%e5%9b%a2%e9%98%9fnat-energy%ef%bc%9a%e5%9f%ba%e4%ba%8e%e9%99%90%e5%9f%9f%e9%80%80%e7%81%ab%e7%ad%96%e7%95%a5%e7%9a%84%e9%ab%98%e6%95%88%e5%85%a8","status":"publish","type":"post","link":"\/\/m.iemloyee.com\/?p=240621","title":{"rendered":"\u674e\u5b5d\u5cf0\u53ca\u5408\u4f5c\u56e2\u961fNat. Energy\uff1a\u57fa\u4e8e\u9650\u57df\u9000\u706b\u7b56\u7565\u7684\u9ad8\u6548\u5168\u9499\u949b\u77ff\u53e0\u5c42\u592a\u9633\u80fd\u7535\u6c60"},"content":{"rendered":"

\u4e00\u3001\u3010\u5bfc\u8bfb\u3011<\/strong><\/p>\n

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\u4e8c\u3001\u3010\u6210\u679c\u63a0\u5f71\u3011<\/strong><\/p>\n

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\"\"<\/p>\n

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\"\"<\/p>\n

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\uff08d\uff09\u5728AM 1.5 G 100 mW cm-2<\/sup>\u7167\u660e\u4e0b\uff0c\u9499\u949b\u77ff\u592a\u9633\u80fd\u7535\u6c60\u7684\u6b63\u53cd\u5411\u7535\u6d41\u5bc6\u5ea6-\u7535\u538b(J-V<\/em>)\u66f2\u7ebf\u3002<\/p>\n

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\"\"<\/p>\n

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\uff08f\uff09\u57fa\u4e8eCSA\u65b9\u6cd5\u6240\u5236\u5907\u76842-T TSCs\u5728\u53cd\u626b\uff08\u6b63\u626b\uff09\u6761\u4ef6\u4e0b\u53ef\u83b7\u5f9725.05\uff0824.74%\uff09\u7684PCE\uff0c\u5404\u6027\u80fd\u53c2\u6570\u8fdc\u4f18\u4e8e\u5e38\u89c4\u9000\u706b\u53e0\u5c42\u5668\u4ef6\u3002<\/p>\n

\uff08g\uff09\u5728\u60f0\u6027\u73af\u5883\u624b\u5957\u7bb1\u4e2d1\u4e2a\u592a\u9633\u7167\u5c04\u4e0b\uff0c2-T TSCs\u7684\u6700\u5927\u529f\u7387\u70b9\u8ffd\u8e2a\u6240\u5f97\u7a33\u5b9a\u8f93\u51fa\u4e3a24.5%\u3002<\/p>\n

\uff08h\uff09\u672a\u5c01\u88c5\u76842-T TSCs\u5728\u60f0\u6027\u73af\u5883\u4e2d\u7684\u5de5\u4f5c\u7a33\u5b9a\u6027\u51fa\u8272\uff0c\u5728450 h\u6700\u5927\u529f\u7387\u70b9\u8ffd\u8e2a\u540e\u4ecd\u53ef\u4fdd\u7559\u539f\u59cbPCE\u768490%\u3002<\/p>\n

\u4e94\u3001\u3010\u524d\u666f\u5c55\u671b\u3011<\/strong><\/p>\n

\u7efc\u4e0a\u6240\u8ff0\uff0c\u7814\u7a76\u4eba\u5458\u5c55\u793a\u4e86\u4e00\u79cd\u6781\u5177\u524d\u666f\u7684\u9650\u57df\u9000\u706b\u7b56\u7565\uff0c\u53ef\u9002\u7528\u4e8e\u4e0d\u540c\u7684\u9499\u949b\u77ff\u7ec4\u5206\u4e0e\u5e26\u9699\uff0c\u4ee5\u5236\u5907\u6676\u7c92\u5c3a\u5bf8\u5927\u3001\u7ed3\u6676\u6027\u9ad8\u548c\u8f7d\u6d41\u5b50\u5bff\u547d\u957f\u7684\u9ad8\u8d28\u91cf\u9499\u949b\u77ff\u5438\u5149\u5c42\uff0c\u5b9e\u73b0\u9ad8\u6548\u7684\u5355\u7ed3\u5668\u4ef6\u548c\u5168\u9499\u949b\u77ff\u53e0\u5c42\u592a\u9633\u80fd\u7535\u6c60\u3002\u7814\u7a76\u4eba\u5458\u63ed\u793a\u4e86\u9650\u57df\u9000\u706b\u8fc7\u7a0b\u4e2d\u7684\u9499\u949b\u77ff\u751f\u957f\u673a\u7406\uff0c\u53d1\u73b0\u9499\u949b\u77ff\u4e2d\u95f4\u76f8\u5185\u90e8\u6b8b\u7559\u6eb6\u5242\u5728\u7f13\u6162\u91ca\u653e\u8fc7\u7a0b\u4e2d\u878d\u5408\u76f8\u90bb\u6676\u4f53\u6765\u4fc3\u8fdb\u6676\u7c92\u7684\u751f\u957f\u3002\u57fa\u4e8e\u9650\u57df\u9000\u706b\u65b9\u6cd5\u5236\u5907\u7684\u5168\u9499\u949b\u77ff\u56db\u7aef\u53e0\u5c42\u592a\u9633\u80fd\u7535\u6c60\u6548\u7387\u8fbe\u523025.15%\uff0c\u7a33\u6001\u8f93\u51fa\u529f\u7387\u7ea6\u4e3a25%\uff1b\u5168\u9499\u949b\u77ff\u4e24\u7aef\u53e0\u5c42\u7535\u6c60\u6548\u7387\u8fbe\u523025.05%\uff0c\u5668\u4ef6\u7a33\u6001\u8f93\u51fa\u6548\u7387\u4e3a24.5%\u3002\u8fdb\u4e00\u6b65\u7814\u7a76\u8868\u660e\uff0c\u5168\u9499\u949b\u77ff\u4e24\u7aef\u53e0\u5c42\u7535\u6c60\u5177\u6709\u826f\u597d\u7684\u5de5\u4f5c\u7a33\u5b9a\u6027\uff0c\u672a\u7ecf\u5c01\u88c5\u7684\u53e0\u5c42\u5668\u4ef6\u5728\u60f0\u6027\u6c14\u4f53\u624b\u5957\u7bb1\u4e2d\u8fde\u7eed\u5de5\u4f5c450\u5c0f\u65f6\uff0c\u6700\u5927\u529f\u7387\u8f93\u51fa\u4ecd\u4e3a\u539f\u59cb\u503c\u768490%\u3002<\/p>\n

\u6587\u732e\u94fe\u63a5\uff1aA universal close-space annealing strategy towards high-quality perovskite absorbers enabling efficient all-perovskite tandem solar cells<\/a> (Nat. Energy <\/em>2022<\/strong>, DOI: 10.1038\/s41560-022-01076-9)<\/p>\n

 <\/p>\n

\u3010\u82cf\u5dde\u5927\u5b66\u56e2\u961f\u4ecb\u7ecd\u3011<\/p>\n

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\u3010\u56e2\u961f\u5728\u8be5\u9886\u57df\u7684\u5de5\u4f5c\u6c47\u603b\u3011<\/p>\n

\u56e2\u961f\u5b9e\u73b0\u4e86\u5149\u4f0f\u4e0e\u63a2\u6d4b\u5668\u4ef6\u7684\u5149\u7535\u70ed\u591a\u7269\u7406\u8026\u5408\u4eff\u771f\uff0c\u63ed\u793a\u4e86\u5668\u4ef6\u5185\u90e8\u80fd\u91cf\u8f6c\u6362\u4e0e\u635f\u8017\u673a\u5236\u3002\u901a\u8fc7\u5b9e\u9a8c\u5236\u5907\u4e86\u9ad8\u6027\u80fd\u5355\u7ed3\u53ca\u53e0\u5c42\u9499\u949b\u77ff\u592a\u9633\u80fd\u7535\u6c60\uff0c\u6027\u80fd\u8d85\u8fc725%\u3002<\/p>\n

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    \n
  1. Changlei Wang, Yue Zhao, Tianshu Ma, Yidan An, Rui He, Jingwei Zhu, Cong Chen, Shengqiang Ren, Fan Fu*, Dewei Zhao*, Xiaofeng Li<\/u><\/strong>*, \u201cA universal close-space annealing strategy towards high-quality perovskite absorbers enabling efficient all-perovskite tandem solar cells\u201d, Nat. Energy<\/u><\/em> 10.1038\/s41560-022-01076-9, (2022)<\/strong><\/li>\n
  2. Aixue Shang, Xiaofeng Li<\/u><\/strong>*, \u201cPhotovoltaic Devices: Opto-Electro-Thermal Physics and Modeling\u201d, Adv. Mater.,<\/u> 29<\/em> (8), 1603492, (2017)<\/strong><\/li>\n
  3. Jian He, Zhenhai Yang, Peipei Liu, Sudong Wu, Pingqi Gao*, Mei Wang, Suqiong Zhou, Xiaofeng Li<\/u><\/strong>*, Hongtao Cao, Jichun Ye*, \u201cEnhanced Electro-Optical Properties of Nanocone\/Nanopillar Dual-Structured Arrays for Ultrathin Silicon\/Organic Hybrid Solar Cell Applications\u201d, Adv. Energy Mater.,<\/u> 6<\/em> (8), 1501793, (2016)<\/strong><\/li>\n
  4. Yidan An,\u2020<\/sup> Changlei Wang,\u2020<\/sup> Guoyang Cao, Xiaofeng Li<\/u><\/strong>*, \u201cHeterojunction Perovskite Solar Cells: Opto-Electro-Thermal Physics, Modeling, and Experiment\u201d, ACS Nano,<\/u> 14<\/em> (4), 5017-5026, (2020)<\/strong><\/li>\n
  5. Guoyang Cao, Yidan An, Qiaoliang Bao, Xiaofeng Li<\/u><\/strong>*, \u201cPhysics and Optoelectronic Simulation of Photodetectors Based on 2D Materials\u201d, Adv. Opto. Mater.,<\/u> 7<\/em> (15), 1900410, (2019)<\/strong><\/li>\n
  6. Sheng Li,\u2020<\/sup> Changlei Wang\u2020, <\/sup>*, Dewei Zhao*, Yidan An, Yue Zhao, Xingzhong Zhao*, Xiaofeng Li<\/u><\/strong>*, \u201cFlexible semitransparent perovskite solar cells with gradient energy levels enable efficient tandems with Cu(In,Ga)Se2<\/sub>\u201d, Nano Energy,<\/u> 78<\/em>, 105378, (2020)<\/strong><\/li>\n
  7. Yidan An, Tianshu Ma, Xiaofeng Li<\/u><\/strong>, \u201cEnergy Tracing of Photovoltaic Cells\u201d, Sol. RRL,<\/u> 5<\/em> (7), 2100199, (2021)<\/strong><\/li>\n
  8. Tianshu Ma, Yidan An, Sheng Li, Yue Zhao, Huayang Wang, Changlei Wang*, Stefan A. Maier, Xiaofeng Li<\/u><\/strong>*, \u201cLow Band Gap Perovskite Concentrator Solar Cells: Physics, Device Simulation, and Experiment\u201d, ACS Appl. Mater. Interfaces,<\/u> 14<\/em> (26), 29856-29866, (2022)<\/strong><\/li>\n
  9. Xiaofeng Li<\/u><\/strong>*, Nicholas P. Hylton, Vincenzo Giannini, Kan-Hua Lee, Ned J. Ekins-Daukes, Stefan A. Maier, \u201cMulti-dimensional modeling of solar cells with electromagnetic and carrier transport calculations\u201d, Prog. Photovolt: Res. Appl.,<\/u> 21<\/em> (1), 109-120, (2013)<\/strong><\/li>\n<\/ol>\n

     <\/p>\n

    \u3010\u56db\u5ddd\u5927\u5b66\u56e2\u961f\u4ecb\u7ecd\u3011<\/p>\n

    \u672c\u56e2\u961f\u96b6\u5c5e\u56db\u5ddd\u5927\u5b66\u6750\u6599\u79d1\u5b66\u4e0e\u5de5\u7a0b\u5b66\u9662\u592a\u9633\u80fd\u6750\u6599\u4e0e\u5668\u4ef6\u7814\u7a76\u6240\uff0c\u4f9d\u6258\u540e\u7eed\u80fd\u6e90\u6750\u6599\u4e0e\u5668\u4ef6\u6559\u80b2\u90e8\u5de5\u7a0b\u7814\u7a76\u4e2d\u5fc3\u3002\u56e2\u961f\u4e3b\u8981\u7814\u7a76\u65b0\u578b\u8584\u819c\u5149\u7535\u6750\u6599\u4e0e\u5668\u4ef6\uff0c\u5728\u7a84\u5e26\u9699\u9499\u949b\u77ff\u592a\u9633\u80fd\u7535\u6c60\u548c\u5168\u9499\u949b\u77ff\u53e0\u5c42\u592a\u9633\u80fd\u7535\u6c60\u9886\u57df\u62e5\u6709\u4e30\u5bcc\u7ecf\u9a8c\u548c\u7a81\u7834\u6027\u6210\u679c\u3002\u8d75\u5fb7\u5a01\u4e3a\u56db\u5ddd\u5927\u5b66\u6559\u6388\u3001\u535a\u58eb\u751f\u5bfc\u5e08\uff0c\u56db\u5ddd\u7701\u5b66\u672f\u4e0e\u6280\u672f\u5e26\u5934\u4eba\uff0c\u66fe\u5165\u9009\u56fd\u5bb6\u9752\u5e74\u4eba\u624d\u3001\u56db\u5ddd\u7701\u6770\u51fa\u9752\u5e74\u79d1\u6280\u4eba\u624d\u3001\u56db\u5ddd\u7701\u7279\u8058\u4e13\u5bb6\u3002\u66fe\u83b7\u5fb7\u56fd\u6559\u80b2\u79d1\u6280\u90e8\u201d\u7eff\u8272\u7cbe\u82f1\u5956(Green Talent)\u201d\u548c\u4e2d\u56fd\u56fd\u5bb6\u7559\u5b66\u57fa\u91d1\u59d4\u201c\u56fd\u5bb6\u4f18\u79c0\u81ea\u8d39\u7559\u5b66\u751f\u5956\u5b66\u91d1\u201d\u3002\u62c5\u4efbWiley\u300aSmartMat\u300b\u548cWiley\u300aExploration\u300b\u671f\u520a\u9752\u5e74\u7f16\u59d4\u3002\u4e3b\u6301\u548c\u53c2\u4e0e\u56fd\u5bb6\u91cd\u70b9\u7814\u53d1\u8ba1\u5212\u201c\u653f\u5e9c\u95f4\u56fd\u9645\u79d1\u6280\u521b\u65b0\u5408\u4f5c\u201d\u9879\u76ee\u3001\u56fd\u5bb6\u81ea\u7136\u79d1\u5b66\u57fa\u91d1\u9762\u4e0a\u9879\u76ee\u3001\u56db\u5ddd\u5927\u5b66\u5de5\u79d1\u7279\u8272\u56e2\u961f\u9879\u76ee\u3001\u56db\u5ddd\u7701\u79d1\u6280\u5385\u91cd\u70b9\u7814\u53d1\u8ba1\u5212\u9879\u76ee\u7b49\u3002\u53d1\u8868\u8bba\u6587130\u4f59\u7bc7\uff0c\u4ee5\u7b2c\u4e00\u4f5c\u8005\u6216\u901a\u8baf\u4f5c\u8005\u8eab\u4efd\uff08\u5305\u542b\u5171\u540c\uff09\u53d1\u8868\u8bba\u6587\u5305\u62ecNature Energy\uff083\u7bc7\uff09\u3001Science\u3001Joule\u3001Adv. Mater.\u3001Adv. Energy Mater.\u7b49\uff0c\u9ad8\u88ab\u5f15\u8bba\u658715\u7bc7\uff0c\u70ed\u70b9\u8bba\u65872\u7bc7\u3002\u603b\u5f15\u752812000\u591a\u6b21\uff0ch\u56e0\u5b5057\uff08\u8c37\u6b4c\u5b66\u672f\uff09\u3002\u591a\u6b21\u62c5\u4efbNature\u3001Science\u3001Nature Energy\u3001Joule\u3001Energy & Environmental Science, Advanced Materials\u7b49\u671f\u520a\u5ba1\u7a3f\u4eba\u3002<\/p>\n

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    \u56e2\u961f\u62a5\u9053\u4e86\u7a84\u5e26\u9699\u9499\u949b\u77ff\u592a\u9633\u80fd\u7535\u6c60\u7684\u9996\u6b21\u8ba4\u8bc1\u6548\u7387\u4e3a 17%\uff08Newport \u8ba4\u8bc1\uff09\uff0c\u7387\u5148\u5b9e\u73b0\u5168\u9499\u949b\u77ff\u4e24\u7aef\u53e0\u5c42\u7535\u6c60\u6548\u738720%\u7684\u7a81\u7834\uff0c\u4e0e\u5408\u4f5c\u8005\u901a\u8fc7\u7a81\u7834\u7a84\u5e26\u9699\u9499\u949b\u77ff\u7ed3\u6676\u8c03\u63a7\u548c\u63ba\u6742\u5de5\u7a0b\u7b49\uff0c\u4ee5\u53ca\u4f18\u5316\u4e2d\u95f4\u8fde\u63a5\u5c42\u4e0e\u53e0\u5c42\u7ed3\u6784\u8bbe\u8ba1\uff0c\u5b9e\u73b0\u9ad8\u6548\u5168\u9499\u949b\u77ff\u53e0\u5c42\u7535\u6c60\u6548\u7387\u5236\u5907\u3002\u76ee\u524d\uff0c1 cm2<\/sup>\u5168\u9499\u949b\u77ff\u53e0\u5c42\u592a\u9633\u7535\u6c60\u83b7\u5f9726.4%\u8ba4\u8bc1\u6548\u7387\uff08JET\u8ba4\u8bc1\uff09\uff0c\u5e76\u88ab\u4e1a\u754c\u6743\u5a01\u7684\u201cSolar cell efficiency tables\u201d\u6536\u5f55\uff0c\u4e3a\u8be5\u9762\u79ef\u4e0b\u540c\u7c7b\u592a\u9633\u7535\u6c60\u7684\u4e16\u754c\u7eaa\u5f55\u6548\u7387\u3002<\/p>\n

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      \n
    1. Changlei Wang, Yue Zhao, Tianshu Ma, Yidan An, Rui He, Jingwei Zhu, Cong Chen, Shengqiang Ren, Fan Fu*, Dewei Zhao*, Xiaofeng Li<\/u><\/strong>*, \u201cA universal close-space annealing strategy towards high-quality perovskite absorbers enabling efficient all-perovskite tandem solar cells\u201d, Energy<\/u><\/em> 10.1038\/s41560-022-01076-9, (2022)<\/strong><\/li>\n
    2. Chongwen Li, Zhaoning Song,* Cong Chen, Chuanxiao Xiao, Biwas Subedi, Steven P. Harvey, Niraj Shrestha, Kamala Khanal Subedi, Lei Chen, Dachang Liu, You Li, Yong-Wah Kim, Chun-sheng Jiang, Michael J. Heben, Dewei Zhao<\/u><\/strong>, Randy J. Ellingson, Nikolas J. Podraza, Mowafak Al-Jassim and Yanfa Yan*, \u201cLow-bandgap mixed tin\u2013lead iodide perovskites with reduced methylammonium for simultaneous enhancement of solar cell efficiency and stability\u201d Energy<\/u><\/em>, 5, 768\u2013776 (2020<\/strong>)<\/li>\n
    3. Dewei Zhao<\/u><\/strong>*<\/u>, Cong Chen, Changlei Wang, Maxwell M. Junda, Zhaoning Song, Corey R. Grice, Yue Yu, Chongwen Li, Biwas Subedi, Nikolas J. Podraza, Xingzhong Zhao, Guojia Fang, Ren-Gen Xiong, Kai Zhu, Yanfa Yan*<\/strong>, \u201cEfficient two-terminal all-perovskite tandem solar cells enabled by high-quality low-bandgap absorber layers\u201d, Energy,<\/u><\/em> 3(12), 1093 (2018<\/strong>)<\/li>\n
    4. Dewei Zhao<\/u><\/strong>*<\/u>, Yue Yu, Changlei Wang, Weiqiang Liao, Niraj Shrestha, Corey R. Grice, Alexander J.\u00a0Cimaroli, Lei Guan, Randy J. Ellingson, Kai Zhu, Xingzhong Zhao, Ren-Gen Xiong, and Yanfa Yan*<\/strong>, \u201cLow-Bandgap Mixed Tin\u2013Lead Iodide Perovskite Absorbers with Long Carrier Lifetimes for All-Perovskite Tandem Solar Cell\u201d, Energy,<\/u><\/em> 2, 17018 (2017<\/strong>)<\/li>\n
    5. Rui He, Shengqiang Ren*, Cong Chen*, Zongjin Yi, Yi Luo, Huagui Lai, Wenwu Wang, Guanggen Zeng, Xia Hao, Ye Wang, Jingquan Zhang, Changlei Wang, Lili Wu, Fan Fu*, Dewei Zhao<\/u><\/strong>*<\/u>, \u201cWide-bandgap organic\u2013inorganic hybrid and all-inorganic perovskite solar cells and their application in all-perovskite tandem solar cells\u201d, Energy Environ. Sci.<\/u><\/em>, 14, 5723-5759 (2021<\/strong>)<\/li>\n
    6. Qiyu Chen,\u2020<\/sup> Jincheng Luo,\u2020<\/sup> Rui He, Huagui Lai, Shengqiang Ren,* Yiting Jiang, Zhenxi Wan, Wenwu Wang, Xia Hao, Ye Wang, Jingquan Zhang, Iordania Constantinou, Changlei Wang, Lili Wu, Fan Fu,* Dewei Zhao*<\/u><\/strong>, \u201cUnveiling Roles of Tin Fluoride Additives in High-Efficiency Low-Bandgap Mixed Tin-Lead Perovskite Solar Cells\u201d, Energy Mater<\/u><\/em>, 11, 2101045 (2021<\/strong>)<\/li>\n
    7. Aobo Ren,\u2020<\/sup> Huagui Lai,\u2020<\/sup> Xia Hao,* Zeguo Tang, Hao Xu, Bernice Mae F. Yu Jeco, Kentaroh Watanabe, Lili Wu, Jingquan Zhang, Masakazu Sugiyama, Jiang Wu and Dewei Zhao<\/u><\/strong>,* \u201cEfficient Perovskite Solar Modules with Minimized Non-Radiative Recombination and Local Carrier Transport Losses\u201d, Joule<\/u><\/em>, 4(6), 1263-1277 (2020<\/strong>)<\/li>\n
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       <\/p>\n

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