Search

Article

x

留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

Progress in Pb-free and less-Pb organic-inorganic hybrid perovskite solar cells

Chen Liang Zhang Li-Wei Chen Yong-Sheng

Citation:

Progress in Pb-free and less-Pb organic-inorganic hybrid perovskite solar cells

Chen Liang, Zhang Li-Wei, Chen Yong-Sheng
PDF
Get Citation

(PLEASE TRANSLATE TO ENGLISH

BY GOOGLE TRANSLATE IF NEEDED.)

  • The conversion efficiencies of perovskite solar cells based on organic-inorganic hybrid metal halide materials have broken through 22% in just a few years, which provides a ray of hope in solving the future energy problem, and receives great attention and research enthusiasm from the academic circle. However, what is followed is commercialization and industrialization process, which will greatly enhance the importance and urgency of the research and development of the green, non-toxic, highly-efficient, and lead-free perovskite solar cells. In order to speed up the development of these environment-friendly perovskite solar cells, we summarize the recent research progress in the perovskite solar cells from the two categories of Pb-free and less-Pb materials. In the Pb-free aspect Sn-based perovskite solar cells are emphatically introduced. A maximum efficiency of 8.12% is obtained for the solar cells based on FA0.75MA0.25SnI3, but it lags far behind the Pb-based competitors. This may be caused mainly by the oxidation of Sn2+ ions and the band mismatch with carrier transport materials, etc. So, for further improving the efficiency, it is very important to optimize the device structure and material properties, and understand the role played by Sn4+ ions in films. In addition, more attention should be paid to the inorganic halide double perovskite materials as potential solutions for the toxicity and stability issues. In the less-Pb part, Sn-doping contributes to a large reduction of lead content in the film, and a maximum efficiency of 17.6% for the (FASnI3)0.6(MAPbI3)0.4 perovskite solar cells is achieved with good long-term stability. What is even more interesting is that it can be utilized to construct tandem cells through the bandgap regulation after doping. However, it is very difficult to determine the optimum Sn-doping ratio. More systematic, rigorous and normative experiments are extremely necessary to reveal the interaction mechanism between Pb2+ and Sn2+. For other doped elements, the effects of their concentrations on the properties of thin films and the performance of solar cells are also emphatically discussed, and it is very urgent to have a further understanding of the working principles of devices and the fundamental functions of substitution elements. Thus, this review highlights the recent research efforts in the development of Pb-free and less-Pb perovskite solar cells and also provides a perspective of future development of new environment-friendly and high performance perovskite solar cells.
      Corresponding author: Chen Yong-Sheng, chysh2003@zzu.edu.cn
    • Funds: Project supported by the National Natural Science Foundation of China (Grant No. 61574129) and the Basic and Frontier Project of Henan Province, China (Grant No. 152300410035).
    [1]

    Kojima A, Teshima K, Shirai Y, Miyasaka T 2009 J. Am. Chem. Soc. 131 6050

    [2]

    Jiang Q, Zhang L Q, Wang H L, Yang X L, Yin Z G, Wu J L, Meng J H, Liu H, Zhang X W, You J B 2016 Nat. Energy 2 16177

    [3]

    Xing G C, Mathews N, Sun S Y, Lim S S, Lam Y M, Gratzel M, Mhaisalkar S, Sum T C 2013 Science 342 344

    [4]

    Shin S S, Yeom E J, Yang W S, Hur S, Kim M G, Im J, Seo J, Noh J H, Seok S I 2017 Science 356 167

    [5]

    Mei A Y, Li X, Liu L F, Ku Z L, Liu T F, Rong Y G, Xu M, Hu M, Chen J Z, Yang Y, Gratzel M, Han H W 2014 Science 345 295

    [6]

    Yang W S, Park B W, Jung E H, Jeon N J, Kim Y C, Lee D U, Shin S S, Seo J, Kim E K, Noh J H, Seok S I 2017 Science 356 1376

    [7]

    Yao X, Ding Y L, Zhang X D, Zhao Y 2015 Acta Phys. Sin. 64 038805 (in Chinese)[姚鑫, 丁艳丽, 张晓丹, 赵颖 2015 物理学报 64 038805]

    [8]

    Yang X D, Chen H, Bi E B, Han L Y 2015 Acta Phys. Sin. 64 038404 (in Chinese)[杨旭东,陈汉,毕恩兵,韩礼元 2015 物理学报 64 038404]

    [9]

    Wang Z, Shi Z, Li T, Chen Y, Huang W 2017 Angew. Chem. Int. Ed. 56 1190

    [10]

    Li B, Li Y, Zheng C, Gao D, Huang W 2016 RSC Adv. 6 38079

    [11]

    Slavney A H, Smaha R W, Smith I C, Jaffe A, Umeyama D, Karunadasa H I 2017 Inorg. Chem. 56 46

    [12]

    Chen J, Cai X, Yang D, Song D, Wang J, Jiang J, Ma A, Lv S, Hu M Z, Ni C 2017 J. Power Sources 355 98

    [13]

    You J, Meng L, Song T B, Guo T F, Yang Y, Chang W H, Hong Z, Chen H, Zhou H, Chen Q, Liu Y, Marco N D, Yang Y 2016 Nat. Nanotechnol. 11 75

    [14]

    Brinkmann K O, Zhao J, Pourdavoud N, Becker T, Hu T, Olthof S, Meerholz K, Hoffmann L, Gahlmann T, Heiderhoff R, Oszajca M F, Luechinger N A, Rogalla D, Chen Y, Cheng B, Riedl T 2017 Nat. Commun. 8 13938

    [15]

    Konstantakou M, Stergiopoulos T 2017 J. Mater. Chem. A 5 11518

    [16]

    Shi Z, Guo J, Chen Y, Li Q, Pan Y, Zhang H, Xia Y, Huang W 2017 Adv. Mater. 29 1605005

    [17]

    Boix P P, Agarwala S, Koh T M, Mathews N, Mhaisalkar S G 2015 J. Phys. Chem. Lett. 6 898

    [18]

    Zhang M, Lyu M, Chen P, Hao M, Yun J H, Wang L 2016 J. Chem. Eng. 11 392

    [19]

    Yang S, Fu W, Zhang Z, Chen H, Li C Z 2017 J. Mater. Chem. A 5 11462

    [20]

    Hoefler S F, Trimmel G, Rath T 2017 Monatsh. Chem. 148 795

    [21]

    Ma Y Z, Wang S F, Zheng L L, Lu Z L, Zhang D F, Bian Z Q, Huang C H, Xiao L X 2014 Chin. J. Chem. 32 957

    [22]

    Travis W, Glover E N K, Bronstein H, Scanlon D O, Palgrave R G 2016 Chem. Sci. 7 4548

    [23]

    Li C, Lu X, Ding W, Feng L, Gao Y, Guo Z 2008 Acta Cryst. 64 702

    [24]

    Eperon G E, Stranks S D, Menelaou C, Johnston M B, Herz L M, Snaith H J 2014 Energy Environ. Sci. 7 982

    [25]

    Brivio F, Walker A B, Walsh A 2013 APL Mater. 1 042111

    [26]

    Cortecchia D, Dewi H A, Yin J, Bruno A, Chen S, Baikie T, Boix P P, Grtzel M, Mhaisalkar S, Soci C, Mathews N 2016 Inorg. Chem. 55 1044

    [27]

    Cui X P, Jiang K J, Huang J H, Zhang Q Q, Su M J, Yang L M, Song Y L, Zhou X Q 2015 Synth. Met. 209 247

    [28]

    Yang D, Lv J, Zhao X, Xu Q, Fu Y, Zhan Y, Zunger A, Zhang L 2017 Chem. Mater. 29 524

    [29]

    Wang Z K, Li M, Yang Y G, Hu Y, Ma H, Gao X Y, Liao L S 2016 Adv. Mater. 28 6695

    [30]

    Wang J T W, Wang Z, Pathak S, Zhang W, deQuilettes D W, Wisnivesky-Rocca-Rivarola F, Huang J, Nayak P K, Patel J B, Yusof H A M, Vaynzof Y, Zhu R, Ramirez I, Zhang J, Ducati C, Grovenor C, Johnston M B, Ginger D S, Nicholas R J, Snaith H J 2016 Energy Environ. Sci. 9 2892

    [31]

    Abdelhady A L, Saidaminov M I, Murali B, Adinolfi V, Voznyy O, Katsiev K, Alarousu E, Comin R, Dursun I, Sinatra L, Sargent E H, Mohammed O F, Bakr O M 2016 J. Phys. Chem. Lett. 7 295

    [32]

    Abdi-Jalebi M, Dar M I, Sadhanala A, Senanayak S P, Franckevicčius M, Arora N, Hu Y, Nazeeruddin M K, Zakeeruddin S M, Gratzel M, Friend R H 2016 Adv. Energy Mater. 6 1502472

    [33]

    Chang J, Lin Z, Zhu H, Isikgor F H, Xu Q H, Zhang C, Hao Y, Ouyang J 2016 J. Mater. Chem. A 4 16546

    [34]

    Even J, Pedesseau L, Jancu J M, Katan C 2014 Phys. Status Solidi RRL 8 31

    [35]

    Stoumpos C C, Malliakas C D, Kanatzidis M G 2013 Inorg. Chem. 52 9019

    [36]

    Ma L, Hao F, Stoumpos C C, Phelan B T, Wasielewski M R, Kanatzidis M G 2016 J. Am. Chem. Soc. 138 14750

    [37]

    Hao F, Stoumpos C C, Cao D H, Chang R P H, Kanatzidis M G 2014 Nat. Photonics 8 489

    [38]

    Yang W S, Noh J H, Jeon N J, Kim Y C, Ryu S, Seo J, Seok S I 2015 Science 348 1234

    [39]

    Hao F, Stoumpos C C, Guo P, Zhou N, Marks T J, Chang R P H, Kanatzidis M G 2015 J. Am. Chem. Soc. 137 11445

    [40]

    Sutherland B R, Hoogland S, Adachi M M, Kanjanaboos P, Wong C T O, McDowell J J, Xu J, Voznyy O, Ning Z, Houtepen A J, Sargent E H 2015 Adv. Mater. 27 53

    [41]

    Noel N K, Stranks S D, Abate A, Wehrenfennig C, Guarnera S, Haghighirad A A, Sadhanala A, Eperon G E, Pathak S K, Johnston M B, Petrozza A, Herz L M, Snaith H J 2014 Energy Environ Sci. 7 3061

    [42]

    Yu Y, Zhao D, Grice C R, Meng W, Wang C, Liao W, Cimaroli A J, Zhang H, Zhu K, Yan Y 2016 RSC Adv. 6 90248

    [43]

    Zhao B, Abdi-Jalebi M, Tabachnyk M, Glass H, Kamboj V S, Nie W A, Pearson J, Puttisong Y, Gdel K C, Beere H E, Ritchie D A, Mohite A D, Dutton S E, Friend R H, Sadhanala A 2017 Adv. Mater. 29 1604744

    [44]

    Song T B, Yokoyama T, Stoumpos C C, Logsdon J, Cao D H, Wasielewski M R, Aramaki S, Kanatzidis M G 2017 J. Am. Chem. Soc. 139 836

    [45]

    Kim H D, Miyamoto Y, Kubota H, Yamanari T, Ohkita H 2017 Chem. Lett. 46 253

    [46]

    Fujihara T, Terakawa S, Matsushima T, Qin C, Yahiroa M, Adachi C 2017 J. Mater. Chem. C 5 1121

    [47]

    Yokoyama T, Cao D H, Stoumpos C C, Song T B, Sato Y, Aramaki S, Kanatzidis M G 2016 J. Phys. Chem. Lett. 7 776

    [48]

    Chiarella F, Ferro P, Licci F, Barra M, Biasiucci M, Cassinese A, Vaglio R 2007 Appl. Phys. A 86 89

    [49]

    Jung M C, Raga S R, Qi Y 2016 RSC Adv. 6 2819

    [50]

    Yokoyama T, Song T B, Cao D H, Stoumpos C C, Aramaki S, Kanatzidis M G 2017 ACS Energy Lett. 2 22

    [51]

    Ergen O, Gilbert S M, Pham T, Turner S J, Tan M T Z, Worsley M A, Zettl A 2017 Nat. Mater. 16 522

    [52]

    Koh T M, Krishnamoorthy T, Yantara N, Shi C, Leong W L, Boix P P, Grimsdale A C, Mhaisalkar S G, Mathews N 2015 J. Mater. Chem. A 3 14996

    [53]

    Lee S J, Shin S S, Kim Y C, Kim D, Ahn T K, Noh J H, Seo J, Seok S I 2016 J. Am. Chem. Soc. 138 3974

    [54]

    Ke W, Stoumpos C C, Logsdon J L, Wasielewski M R, Yan Y, Fang G, Kanatzidis M G 2016 J. Am. Chem. Soc. 138 14998

    [55]

    Zhao Z, Gu F, Li Y, Sun W, Ye S, Rao H, Liu Z, Bian Z, Huang C 2017 Adv. Sci. 4 1700204

    [56]

    Liao W, Zhao D, Yu Y, Grice C R, Wang C, Cimaroli A J, Schulz P, Meng W, Zhu K, Xiong R G, Yan Y 2016 Adv. Mater. 28 9333

    [57]

    Zhang M, Lyu M, Yun J H, Noori M, Zhou X, Cooling N A, Wang Q, Yu H, Dastoor P C, Wang L 2016 Nano Res. 9 1570

    [58]

    Liao Y, Liu H, Zhou W, Yang D, Shang Y, Shi Z, Li B, Jiang X, Zhang L, Quan L N, Quintero-Bermudez R, Sutherland B R, Mi Q, Sargent E H, Ning Z 2017 J. Am. Chem. Soc. 139 6693

    [59]

    Ke W, Stoumpos C C, Zhu M, Mao L, Spanopoulos I, Liu J, Kontsevoi O Y, Chen M, Sarma D, Zhang Y, Wasielewski M R, Kanatzidis M G 2017 Sci. Adv. 3 e1701293

    [60]

    Chung I, Lee B, He J, Chang R P H, Kanatzidis M G 2012 Nature 485 486

    [61]

    Wu B, Zhou Y, Xing G, Xu Q, Garces H F, Solanki A, Goh T W, Padture N P, Sum T C 2017 Adv. Funct. Mater. 27 1604818

    [62]

    Marshall K P, Walton R I, Hatton R A 2015 J. Mater. Chem. A 3 11631

    [63]

    Zhou Y, Garces H F, Senturk B S, Ortiz A L, Padture N P 2013 Mater. Lett. 110 127

    [64]

    Chen Z, Wang J J, Ren Y, Yu C, Shum K 2012 Appl. Phys. Lett. 101 093901

    [65]

    Xu P, Chen S, Xiang H J, Gong X G, Wei S H 2014 Chem. Mater. 26 6068

    [66]

    Kumar M H, Dharani S, Leong W L, Boix P P, Prabhakar R R, Baikie T, Shi C, Ding H, Ramesh R, Asta M, Graetzel M, Mhaisalkar S G, Mathews N 2014 Adv. Mater. 26 7122

    [67]

    Wang N, Zhou Y, Ju M G, Garces H F, Ding T, Pang S, Zeng X C, Padture N P, Sun X W 2016 Adv. Energy Mater. 6 1601130

    [68]

    Marshall K P, Walker M, Walton R I, Hatton R A 2016 Nat. Energy 1 16178

    [69]

    Sabba D, Mulmudi H K, Prabhakar R R, Krishnamoorthy T, Baikie T, Boix P P, Mhaisalkar S, Mathews N 2015 J. Phys. Chem. C 119 1763

    [70]

    Moghe D, Wang L, Traverse C J, Redoute A, Sponseller M, Brown P R, Bulović V, Lunt R R 2016 Nano Energy 28 469

    [71]

    Li W, Li J, Li J, Fan J, Mai Y, Wang L 2016 J. Mater. Chem. A 4 17104

    [72]

    Gupta S, Bendikov T, Hodes G, Cahen D 2016 ACS Energy Lett. 1 1028

    [73]

    Shannon R D 1976 Acta Crystallogr. A 32 751

    [74]

    Lee B, Stoumpos C C, Zhou N, Hao F, Malliakas C, Yeh C Y, Marks T J, Kanatzidis M G, Chang R P H 2014 J. Am. Chem. Soc. 136 15379

    [75]

    Qiu X, Jiang Y, Zhang H, Qiu Z, Yuan S, Wang P, Cao B 2016 Phys. Status Solidi RRL 10 587

    [76]

    Qiu X, Cao B, Yuan S, Chen X, Qiu Z, Jiang Y, Ye Q, Wang H, Zeng H, Liu J, Kanatzidis M G 2017 Sol. Energy Mater. Sol. Cells 159 227

    [77]

    Sun P P, Li Q S, Yang L N, Li Z S 2016 Nanoscale 8 1503

    [78]

    Krishnamoorthy T, Ding H, Yan C, Leong W L, Baikie T, Zhang Z, Sherburne M, Li S, Asta M, Mathews N, Mhaisalkar S G 2015 J. Mater. Chem. A 3 23829

    [79]

    Uribe J I, Ramirez D, Osorio-Guilleńn J M, Osorio J, Jaramillo F 2016 J. Phys. Chem. C 120 16393

    [80]

    Pazoki M, Jacobsson T J, Hagfeldt A, Boschloo G, Edvinsson T 2016 Phys. Rev. B 93 144105

    [81]

    Filip M R, Giustino F 2016 J. Phys. Chem. C 120 166

    [82]

    Hamdeh U H, Nelson R D, Ryan B J, Bhattacharjee U, Petrich J W, Panthani M G 2016 Chem. Mater. 28 6567

    [83]

    Peresh E Y, Sidei V I, Zubaka O V, Stercho I P 2011 Inorg. Mater. 47 208

    [84]

    Maughan A E, Ganose A M, Bordelon M M, Miller E M, Scanlon D O, Neilson J R 2016 J. Am. Chem. Soc. 138 8453

    [85]

    Sakai N, Haghighirad A A, Filip M R, Nayak P K, Nayak S, Ramadan A, Wang Z, Giustino F, Snaith H J 2017 J. Am. Chem. Soc. 139 6030

    [86]

    Retuerto M, Emge T, Hadermann J, Stephens P W, Li M R, Yin Z P, Croft M, Ignatov A, Zhang S J, Yuan Z, Jin C, Simonson J W, Aronson M C, Pan A, Basov D N, Kotliar G, Greenblatt M 2013 Chem. Mater. 25 4071

    [87]

    Riggs S C, Shapiro M C, Corredor F, Geballe T H, Fisher I R, McCandless G T, Chan J Y 2012 J. Cryst. Growth 355 13

    [88]

    Slavney A H, Hu T, Lindenberg A M, Karunadasa H I 2016 J. Am. Chem. Soc. 138 2138

    [89]

    Volonakis G, Filip M R, Haghighirad A A, Sakai N, Wenger B, Snaith H J, Giustino F 2016 J. Phys. Chem. Lett. 7 1254

    [90]

    Volonakis G, Haghighirad A A, Milot R L, Sio W H, Filip M R, Wenger B, Johnston M B, Herz L M, Snaith H J, Giustino F 2017 J. Phys. Chem. Lett. 8 772

    [91]

    Zhao X G, Yang D, Sun Y, Li T, Zhang L, Yu L, Zunger A 2017 J. Am. Chem. Soc. 139 6718

    [92]

    Zhao X G, Yang J, Fu Y, Yang D, Xu Q, Yu L, Wei S H, Zhang L 2017 J. Am. Chem. Soc. 139 2630

    [93]

    McClure E T, Ball M R, Windl W, Woodward P M 2016 Chem. Mater. 28 1348

    [94]

    Greul E, Petrus M L, Binek A, Docampo P, Bein T 2017 J. Mater. Chem. A 5 19972

    [95]

    Feng H J, Deng W, Yang K, Huang J, Zeng X C 2017 J. Phys. Chem. C 121 4471

    [96]

    Kulkarni S A, Baikie T, Boix P P, Yantara N, Mathews N, Mhaisalkar S 2014 J. Mater. Chem. A 2 9221

    [97]

    Hao F, Stoumpos C C, Chang R P H, Kanatzidis M G 2014 J. Am. Chem. Soc. 136 8094

    [98]

    Liu C, Fan J, Li H, Zhang C, Mai Y 2016 Sci. Rep. 6 35705

    [99]

    Eperon G E, Leijtens T, Bush K A, Prasanna R, Green T, Wang J T W, McMeekin D P, Volonakis G, Milot R L, May R, Palmstrom A, Slotcavage D J, Belisle R A, Patel J B, Parrott E S, Sutton R J, Ma W, Moghadam F, Conings B, Babayigit A, Boyen H G, Bent S, Giustino F, Herz L M, Johnston M B, McGehee M D, Snaith H J 2016 Science 354 861

    [100]

    Ogomi Y, Morita A, Tsukamoto S, Saitho T, Fujikawa N, Shen Q, Toyoda T, Yoshino K, Pandey S S, Ma T, Hayase S 2014 J. Phys. Chem. Lett. 5 1004

    [101]

    Zuo F, Williams S T, Liang P W, Chueh C C, Liao C Y, Jen A K Y 2014 Adv. Mater. 26 6454

    [102]

    Zhu L, Yuh B, Schoen S, Li X, Aldighaithir M, Richardson B J, Alamer A, Yu Q 2016 Nanoscale 8 7621

    [103]

    Yang Z, Rajagopal A, Chueh C C, Jo S B, Liu B, Zhao T, Jen A K Y 2016 Adv. Mater. 28 8990

    [104]

    Liu X, Yang Z, Chueh C C, Rajagopal A, Williams S T, Sun Y, Jen A K Y 2016 J. Mater. Chem. A 4 17939

    [105]

    Yang Z, Rajagopal A, Jo S B, Chueh C C, Williams S, Huang C C, Katahara J K, Hillhouse H W, Jen A K Y 2016 Nano Lett. 16 7739

    [106]

    Zhu H L, Xiao J, Mao J, Zhang H, Zhao Y, Choy W C H 2017 Adv. Funct. Mater. 27 1605489

    [107]

    Li L, Zhang F, Hao Y, Sun Q, Li Z, Hua W, Cui Y, Zhu F 2017 J. Mater. Chem. C 5 2360

    [108]

    Mosconi E, Umaribc P, de Angelis F 2015 J. Mater. Chem. A 3 9208

    [109]

    Lin G, Lin Y, Huang H, Cui R, Guo X, Liu B, Dong J, Guo X, Sun B 2016 Nano Energy 27 638

    [110]

    Lyu M, Zhang M, Cooling N A, Jiao Y, Wang Q, Yun J H, Vaughan B, Triani G, Evans P, Zhou X, Feron K, Du A, Dastoor P, Wang L 2016 Sci. Bull. 61 1558

    [111]

    Li Y, Sun W, Yan W, Ye S, Rao H, Peng H, Zhao Z, Bian Z, Liu Z, Zhou H, Huang C 2016 Adv. Energy Mater. 6 1601353

    [112]

    Liu J, Wang G, Song Z, He X, Luo K, Ye Q, Liao C, Mei J 2017 J. Mater. Chem. A 5 9097

    [113]

    Xu X, Chueh C C, Yang Z, Rajagopal A, Xu J, Jo S B, Jen A K Y 2017 Nano Energy 34 392

    [114]

    Liao W, Zhao D, Yu Y, Shrestha N, Ghimire K, Grice C R, Wang C, Xiao Y, Cimaroli A J, Ellingson R J, Podraza N J, Zhu K, Xiong R G, Yan Y 2016 J. Am. Chem. Soc. 138 12360

    [115]

    Zhao D, Yu Y, Wang C, Liao W, Shrestha N, Grice C R, Cimaroli A J, Guan L, Ellingson R J, Zhu K, Zhao X, Xiong R G, Yan Y 2017 Nat. Energy 2 17018

    [116]

    Prez-del-Rey D, Forgcs D, Hutter E M, Savenije T J, Nordlund D, Schulz P, Berry J J, Sessolo M, Bolink H J 2016 Adv. Mater. 28 9839

    [117]

    Navas J, Snchez-Coronilla A, Gallardo J J, Hernndez N C, Piero J C, Alcntara R, Fernndez-Lorenzo C, de los Santos D M, Aguilar T, Martn-Calleja J 2015 Nanoscale 7 6216

    [118]

    Shai X, Zuo L, Sun P, Liao P, Huang W, Yao E P, Lia H, Liu S, Shen Y, Yang Y, Wang M 2017 Nano Energy 36 213

    [119]

    Zhang H, Wang H, Williams S T, Xiong D, Zhang W, Chueh C C, Chen W, Jen A K Y 2017 Adv. Mater. 29 1606608

    [120]

    Wang R, Zhang X, He J, Ma C, Xu L, Sheng P, Huang F 2017 J. Alloy. Compd. 695 555

    [121]

    Klug M T, Osherov A, Haghighirad A A, Stranks S D, Brown P R, Bai S, Wang J T W, Dang X, Bulovic V, Snaith H J, Belcher A M 2017 Energy Environ. Sci. 10 236

    [122]

    Williams S T, Rajagopal A, Jo S B, Chueh C C, Tang T F L, Kraegera A, Jen A K Y 2017 J. Mater. Chem. A 5 10640

    [123]

    Jahandar M, Heo J H, Song C E, Kong K J, Shin W S, Lee J C, Im S H, Moon S J 2016 Nano Energy 27 330

    [124]

    Shahbazi S, Tsai C M, Narra S, Wang C Y, Shiu H S, Afshar S, Taghavinia N, Diau E W G 2017 J. Phys. Chem. C 121 3673

    [125]

    Chen Q, Chen L, Ye F, Zhao T, Tang F, Rajagopal A, Jiang Z, Jiang S, Jen A K Y, Xie Y, Cai J, Chen L 2017 Nano Lett. 17 3231

  • [1]

    Kojima A, Teshima K, Shirai Y, Miyasaka T 2009 J. Am. Chem. Soc. 131 6050

    [2]

    Jiang Q, Zhang L Q, Wang H L, Yang X L, Yin Z G, Wu J L, Meng J H, Liu H, Zhang X W, You J B 2016 Nat. Energy 2 16177

    [3]

    Xing G C, Mathews N, Sun S Y, Lim S S, Lam Y M, Gratzel M, Mhaisalkar S, Sum T C 2013 Science 342 344

    [4]

    Shin S S, Yeom E J, Yang W S, Hur S, Kim M G, Im J, Seo J, Noh J H, Seok S I 2017 Science 356 167

    [5]

    Mei A Y, Li X, Liu L F, Ku Z L, Liu T F, Rong Y G, Xu M, Hu M, Chen J Z, Yang Y, Gratzel M, Han H W 2014 Science 345 295

    [6]

    Yang W S, Park B W, Jung E H, Jeon N J, Kim Y C, Lee D U, Shin S S, Seo J, Kim E K, Noh J H, Seok S I 2017 Science 356 1376

    [7]

    Yao X, Ding Y L, Zhang X D, Zhao Y 2015 Acta Phys. Sin. 64 038805 (in Chinese)[姚鑫, 丁艳丽, 张晓丹, 赵颖 2015 物理学报 64 038805]

    [8]

    Yang X D, Chen H, Bi E B, Han L Y 2015 Acta Phys. Sin. 64 038404 (in Chinese)[杨旭东,陈汉,毕恩兵,韩礼元 2015 物理学报 64 038404]

    [9]

    Wang Z, Shi Z, Li T, Chen Y, Huang W 2017 Angew. Chem. Int. Ed. 56 1190

    [10]

    Li B, Li Y, Zheng C, Gao D, Huang W 2016 RSC Adv. 6 38079

    [11]

    Slavney A H, Smaha R W, Smith I C, Jaffe A, Umeyama D, Karunadasa H I 2017 Inorg. Chem. 56 46

    [12]

    Chen J, Cai X, Yang D, Song D, Wang J, Jiang J, Ma A, Lv S, Hu M Z, Ni C 2017 J. Power Sources 355 98

    [13]

    You J, Meng L, Song T B, Guo T F, Yang Y, Chang W H, Hong Z, Chen H, Zhou H, Chen Q, Liu Y, Marco N D, Yang Y 2016 Nat. Nanotechnol. 11 75

    [14]

    Brinkmann K O, Zhao J, Pourdavoud N, Becker T, Hu T, Olthof S, Meerholz K, Hoffmann L, Gahlmann T, Heiderhoff R, Oszajca M F, Luechinger N A, Rogalla D, Chen Y, Cheng B, Riedl T 2017 Nat. Commun. 8 13938

    [15]

    Konstantakou M, Stergiopoulos T 2017 J. Mater. Chem. A 5 11518

    [16]

    Shi Z, Guo J, Chen Y, Li Q, Pan Y, Zhang H, Xia Y, Huang W 2017 Adv. Mater. 29 1605005

    [17]

    Boix P P, Agarwala S, Koh T M, Mathews N, Mhaisalkar S G 2015 J. Phys. Chem. Lett. 6 898

    [18]

    Zhang M, Lyu M, Chen P, Hao M, Yun J H, Wang L 2016 J. Chem. Eng. 11 392

    [19]

    Yang S, Fu W, Zhang Z, Chen H, Li C Z 2017 J. Mater. Chem. A 5 11462

    [20]

    Hoefler S F, Trimmel G, Rath T 2017 Monatsh. Chem. 148 795

    [21]

    Ma Y Z, Wang S F, Zheng L L, Lu Z L, Zhang D F, Bian Z Q, Huang C H, Xiao L X 2014 Chin. J. Chem. 32 957

    [22]

    Travis W, Glover E N K, Bronstein H, Scanlon D O, Palgrave R G 2016 Chem. Sci. 7 4548

    [23]

    Li C, Lu X, Ding W, Feng L, Gao Y, Guo Z 2008 Acta Cryst. 64 702

    [24]

    Eperon G E, Stranks S D, Menelaou C, Johnston M B, Herz L M, Snaith H J 2014 Energy Environ. Sci. 7 982

    [25]

    Brivio F, Walker A B, Walsh A 2013 APL Mater. 1 042111

    [26]

    Cortecchia D, Dewi H A, Yin J, Bruno A, Chen S, Baikie T, Boix P P, Grtzel M, Mhaisalkar S, Soci C, Mathews N 2016 Inorg. Chem. 55 1044

    [27]

    Cui X P, Jiang K J, Huang J H, Zhang Q Q, Su M J, Yang L M, Song Y L, Zhou X Q 2015 Synth. Met. 209 247

    [28]

    Yang D, Lv J, Zhao X, Xu Q, Fu Y, Zhan Y, Zunger A, Zhang L 2017 Chem. Mater. 29 524

    [29]

    Wang Z K, Li M, Yang Y G, Hu Y, Ma H, Gao X Y, Liao L S 2016 Adv. Mater. 28 6695

    [30]

    Wang J T W, Wang Z, Pathak S, Zhang W, deQuilettes D W, Wisnivesky-Rocca-Rivarola F, Huang J, Nayak P K, Patel J B, Yusof H A M, Vaynzof Y, Zhu R, Ramirez I, Zhang J, Ducati C, Grovenor C, Johnston M B, Ginger D S, Nicholas R J, Snaith H J 2016 Energy Environ. Sci. 9 2892

    [31]

    Abdelhady A L, Saidaminov M I, Murali B, Adinolfi V, Voznyy O, Katsiev K, Alarousu E, Comin R, Dursun I, Sinatra L, Sargent E H, Mohammed O F, Bakr O M 2016 J. Phys. Chem. Lett. 7 295

    [32]

    Abdi-Jalebi M, Dar M I, Sadhanala A, Senanayak S P, Franckevicčius M, Arora N, Hu Y, Nazeeruddin M K, Zakeeruddin S M, Gratzel M, Friend R H 2016 Adv. Energy Mater. 6 1502472

    [33]

    Chang J, Lin Z, Zhu H, Isikgor F H, Xu Q H, Zhang C, Hao Y, Ouyang J 2016 J. Mater. Chem. A 4 16546

    [34]

    Even J, Pedesseau L, Jancu J M, Katan C 2014 Phys. Status Solidi RRL 8 31

    [35]

    Stoumpos C C, Malliakas C D, Kanatzidis M G 2013 Inorg. Chem. 52 9019

    [36]

    Ma L, Hao F, Stoumpos C C, Phelan B T, Wasielewski M R, Kanatzidis M G 2016 J. Am. Chem. Soc. 138 14750

    [37]

    Hao F, Stoumpos C C, Cao D H, Chang R P H, Kanatzidis M G 2014 Nat. Photonics 8 489

    [38]

    Yang W S, Noh J H, Jeon N J, Kim Y C, Ryu S, Seo J, Seok S I 2015 Science 348 1234

    [39]

    Hao F, Stoumpos C C, Guo P, Zhou N, Marks T J, Chang R P H, Kanatzidis M G 2015 J. Am. Chem. Soc. 137 11445

    [40]

    Sutherland B R, Hoogland S, Adachi M M, Kanjanaboos P, Wong C T O, McDowell J J, Xu J, Voznyy O, Ning Z, Houtepen A J, Sargent E H 2015 Adv. Mater. 27 53

    [41]

    Noel N K, Stranks S D, Abate A, Wehrenfennig C, Guarnera S, Haghighirad A A, Sadhanala A, Eperon G E, Pathak S K, Johnston M B, Petrozza A, Herz L M, Snaith H J 2014 Energy Environ Sci. 7 3061

    [42]

    Yu Y, Zhao D, Grice C R, Meng W, Wang C, Liao W, Cimaroli A J, Zhang H, Zhu K, Yan Y 2016 RSC Adv. 6 90248

    [43]

    Zhao B, Abdi-Jalebi M, Tabachnyk M, Glass H, Kamboj V S, Nie W A, Pearson J, Puttisong Y, Gdel K C, Beere H E, Ritchie D A, Mohite A D, Dutton S E, Friend R H, Sadhanala A 2017 Adv. Mater. 29 1604744

    [44]

    Song T B, Yokoyama T, Stoumpos C C, Logsdon J, Cao D H, Wasielewski M R, Aramaki S, Kanatzidis M G 2017 J. Am. Chem. Soc. 139 836

    [45]

    Kim H D, Miyamoto Y, Kubota H, Yamanari T, Ohkita H 2017 Chem. Lett. 46 253

    [46]

    Fujihara T, Terakawa S, Matsushima T, Qin C, Yahiroa M, Adachi C 2017 J. Mater. Chem. C 5 1121

    [47]

    Yokoyama T, Cao D H, Stoumpos C C, Song T B, Sato Y, Aramaki S, Kanatzidis M G 2016 J. Phys. Chem. Lett. 7 776

    [48]

    Chiarella F, Ferro P, Licci F, Barra M, Biasiucci M, Cassinese A, Vaglio R 2007 Appl. Phys. A 86 89

    [49]

    Jung M C, Raga S R, Qi Y 2016 RSC Adv. 6 2819

    [50]

    Yokoyama T, Song T B, Cao D H, Stoumpos C C, Aramaki S, Kanatzidis M G 2017 ACS Energy Lett. 2 22

    [51]

    Ergen O, Gilbert S M, Pham T, Turner S J, Tan M T Z, Worsley M A, Zettl A 2017 Nat. Mater. 16 522

    [52]

    Koh T M, Krishnamoorthy T, Yantara N, Shi C, Leong W L, Boix P P, Grimsdale A C, Mhaisalkar S G, Mathews N 2015 J. Mater. Chem. A 3 14996

    [53]

    Lee S J, Shin S S, Kim Y C, Kim D, Ahn T K, Noh J H, Seo J, Seok S I 2016 J. Am. Chem. Soc. 138 3974

    [54]

    Ke W, Stoumpos C C, Logsdon J L, Wasielewski M R, Yan Y, Fang G, Kanatzidis M G 2016 J. Am. Chem. Soc. 138 14998

    [55]

    Zhao Z, Gu F, Li Y, Sun W, Ye S, Rao H, Liu Z, Bian Z, Huang C 2017 Adv. Sci. 4 1700204

    [56]

    Liao W, Zhao D, Yu Y, Grice C R, Wang C, Cimaroli A J, Schulz P, Meng W, Zhu K, Xiong R G, Yan Y 2016 Adv. Mater. 28 9333

    [57]

    Zhang M, Lyu M, Yun J H, Noori M, Zhou X, Cooling N A, Wang Q, Yu H, Dastoor P C, Wang L 2016 Nano Res. 9 1570

    [58]

    Liao Y, Liu H, Zhou W, Yang D, Shang Y, Shi Z, Li B, Jiang X, Zhang L, Quan L N, Quintero-Bermudez R, Sutherland B R, Mi Q, Sargent E H, Ning Z 2017 J. Am. Chem. Soc. 139 6693

    [59]

    Ke W, Stoumpos C C, Zhu M, Mao L, Spanopoulos I, Liu J, Kontsevoi O Y, Chen M, Sarma D, Zhang Y, Wasielewski M R, Kanatzidis M G 2017 Sci. Adv. 3 e1701293

    [60]

    Chung I, Lee B, He J, Chang R P H, Kanatzidis M G 2012 Nature 485 486

    [61]

    Wu B, Zhou Y, Xing G, Xu Q, Garces H F, Solanki A, Goh T W, Padture N P, Sum T C 2017 Adv. Funct. Mater. 27 1604818

    [62]

    Marshall K P, Walton R I, Hatton R A 2015 J. Mater. Chem. A 3 11631

    [63]

    Zhou Y, Garces H F, Senturk B S, Ortiz A L, Padture N P 2013 Mater. Lett. 110 127

    [64]

    Chen Z, Wang J J, Ren Y, Yu C, Shum K 2012 Appl. Phys. Lett. 101 093901

    [65]

    Xu P, Chen S, Xiang H J, Gong X G, Wei S H 2014 Chem. Mater. 26 6068

    [66]

    Kumar M H, Dharani S, Leong W L, Boix P P, Prabhakar R R, Baikie T, Shi C, Ding H, Ramesh R, Asta M, Graetzel M, Mhaisalkar S G, Mathews N 2014 Adv. Mater. 26 7122

    [67]

    Wang N, Zhou Y, Ju M G, Garces H F, Ding T, Pang S, Zeng X C, Padture N P, Sun X W 2016 Adv. Energy Mater. 6 1601130

    [68]

    Marshall K P, Walker M, Walton R I, Hatton R A 2016 Nat. Energy 1 16178

    [69]

    Sabba D, Mulmudi H K, Prabhakar R R, Krishnamoorthy T, Baikie T, Boix P P, Mhaisalkar S, Mathews N 2015 J. Phys. Chem. C 119 1763

    [70]

    Moghe D, Wang L, Traverse C J, Redoute A, Sponseller M, Brown P R, Bulović V, Lunt R R 2016 Nano Energy 28 469

    [71]

    Li W, Li J, Li J, Fan J, Mai Y, Wang L 2016 J. Mater. Chem. A 4 17104

    [72]

    Gupta S, Bendikov T, Hodes G, Cahen D 2016 ACS Energy Lett. 1 1028

    [73]

    Shannon R D 1976 Acta Crystallogr. A 32 751

    [74]

    Lee B, Stoumpos C C, Zhou N, Hao F, Malliakas C, Yeh C Y, Marks T J, Kanatzidis M G, Chang R P H 2014 J. Am. Chem. Soc. 136 15379

    [75]

    Qiu X, Jiang Y, Zhang H, Qiu Z, Yuan S, Wang P, Cao B 2016 Phys. Status Solidi RRL 10 587

    [76]

    Qiu X, Cao B, Yuan S, Chen X, Qiu Z, Jiang Y, Ye Q, Wang H, Zeng H, Liu J, Kanatzidis M G 2017 Sol. Energy Mater. Sol. Cells 159 227

    [77]

    Sun P P, Li Q S, Yang L N, Li Z S 2016 Nanoscale 8 1503

    [78]

    Krishnamoorthy T, Ding H, Yan C, Leong W L, Baikie T, Zhang Z, Sherburne M, Li S, Asta M, Mathews N, Mhaisalkar S G 2015 J. Mater. Chem. A 3 23829

    [79]

    Uribe J I, Ramirez D, Osorio-Guilleńn J M, Osorio J, Jaramillo F 2016 J. Phys. Chem. C 120 16393

    [80]

    Pazoki M, Jacobsson T J, Hagfeldt A, Boschloo G, Edvinsson T 2016 Phys. Rev. B 93 144105

    [81]

    Filip M R, Giustino F 2016 J. Phys. Chem. C 120 166

    [82]

    Hamdeh U H, Nelson R D, Ryan B J, Bhattacharjee U, Petrich J W, Panthani M G 2016 Chem. Mater. 28 6567

    [83]

    Peresh E Y, Sidei V I, Zubaka O V, Stercho I P 2011 Inorg. Mater. 47 208

    [84]

    Maughan A E, Ganose A M, Bordelon M M, Miller E M, Scanlon D O, Neilson J R 2016 J. Am. Chem. Soc. 138 8453

    [85]

    Sakai N, Haghighirad A A, Filip M R, Nayak P K, Nayak S, Ramadan A, Wang Z, Giustino F, Snaith H J 2017 J. Am. Chem. Soc. 139 6030

    [86]

    Retuerto M, Emge T, Hadermann J, Stephens P W, Li M R, Yin Z P, Croft M, Ignatov A, Zhang S J, Yuan Z, Jin C, Simonson J W, Aronson M C, Pan A, Basov D N, Kotliar G, Greenblatt M 2013 Chem. Mater. 25 4071

    [87]

    Riggs S C, Shapiro M C, Corredor F, Geballe T H, Fisher I R, McCandless G T, Chan J Y 2012 J. Cryst. Growth 355 13

    [88]

    Slavney A H, Hu T, Lindenberg A M, Karunadasa H I 2016 J. Am. Chem. Soc. 138 2138

    [89]

    Volonakis G, Filip M R, Haghighirad A A, Sakai N, Wenger B, Snaith H J, Giustino F 2016 J. Phys. Chem. Lett. 7 1254

    [90]

    Volonakis G, Haghighirad A A, Milot R L, Sio W H, Filip M R, Wenger B, Johnston M B, Herz L M, Snaith H J, Giustino F 2017 J. Phys. Chem. Lett. 8 772

    [91]

    Zhao X G, Yang D, Sun Y, Li T, Zhang L, Yu L, Zunger A 2017 J. Am. Chem. Soc. 139 6718

    [92]

    Zhao X G, Yang J, Fu Y, Yang D, Xu Q, Yu L, Wei S H, Zhang L 2017 J. Am. Chem. Soc. 139 2630

    [93]

    McClure E T, Ball M R, Windl W, Woodward P M 2016 Chem. Mater. 28 1348

    [94]

    Greul E, Petrus M L, Binek A, Docampo P, Bein T 2017 J. Mater. Chem. A 5 19972

    [95]

    Feng H J, Deng W, Yang K, Huang J, Zeng X C 2017 J. Phys. Chem. C 121 4471

    [96]

    Kulkarni S A, Baikie T, Boix P P, Yantara N, Mathews N, Mhaisalkar S 2014 J. Mater. Chem. A 2 9221

    [97]

    Hao F, Stoumpos C C, Chang R P H, Kanatzidis M G 2014 J. Am. Chem. Soc. 136 8094

    [98]

    Liu C, Fan J, Li H, Zhang C, Mai Y 2016 Sci. Rep. 6 35705

    [99]

    Eperon G E, Leijtens T, Bush K A, Prasanna R, Green T, Wang J T W, McMeekin D P, Volonakis G, Milot R L, May R, Palmstrom A, Slotcavage D J, Belisle R A, Patel J B, Parrott E S, Sutton R J, Ma W, Moghadam F, Conings B, Babayigit A, Boyen H G, Bent S, Giustino F, Herz L M, Johnston M B, McGehee M D, Snaith H J 2016 Science 354 861

    [100]

    Ogomi Y, Morita A, Tsukamoto S, Saitho T, Fujikawa N, Shen Q, Toyoda T, Yoshino K, Pandey S S, Ma T, Hayase S 2014 J. Phys. Chem. Lett. 5 1004

    [101]

    Zuo F, Williams S T, Liang P W, Chueh C C, Liao C Y, Jen A K Y 2014 Adv. Mater. 26 6454

    [102]

    Zhu L, Yuh B, Schoen S, Li X, Aldighaithir M, Richardson B J, Alamer A, Yu Q 2016 Nanoscale 8 7621

    [103]

    Yang Z, Rajagopal A, Chueh C C, Jo S B, Liu B, Zhao T, Jen A K Y 2016 Adv. Mater. 28 8990

    [104]

    Liu X, Yang Z, Chueh C C, Rajagopal A, Williams S T, Sun Y, Jen A K Y 2016 J. Mater. Chem. A 4 17939

    [105]

    Yang Z, Rajagopal A, Jo S B, Chueh C C, Williams S, Huang C C, Katahara J K, Hillhouse H W, Jen A K Y 2016 Nano Lett. 16 7739

    [106]

    Zhu H L, Xiao J, Mao J, Zhang H, Zhao Y, Choy W C H 2017 Adv. Funct. Mater. 27 1605489

    [107]

    Li L, Zhang F, Hao Y, Sun Q, Li Z, Hua W, Cui Y, Zhu F 2017 J. Mater. Chem. C 5 2360

    [108]

    Mosconi E, Umaribc P, de Angelis F 2015 J. Mater. Chem. A 3 9208

    [109]

    Lin G, Lin Y, Huang H, Cui R, Guo X, Liu B, Dong J, Guo X, Sun B 2016 Nano Energy 27 638

    [110]

    Lyu M, Zhang M, Cooling N A, Jiao Y, Wang Q, Yun J H, Vaughan B, Triani G, Evans P, Zhou X, Feron K, Du A, Dastoor P, Wang L 2016 Sci. Bull. 61 1558

    [111]

    Li Y, Sun W, Yan W, Ye S, Rao H, Peng H, Zhao Z, Bian Z, Liu Z, Zhou H, Huang C 2016 Adv. Energy Mater. 6 1601353

    [112]

    Liu J, Wang G, Song Z, He X, Luo K, Ye Q, Liao C, Mei J 2017 J. Mater. Chem. A 5 9097

    [113]

    Xu X, Chueh C C, Yang Z, Rajagopal A, Xu J, Jo S B, Jen A K Y 2017 Nano Energy 34 392

    [114]

    Liao W, Zhao D, Yu Y, Shrestha N, Ghimire K, Grice C R, Wang C, Xiao Y, Cimaroli A J, Ellingson R J, Podraza N J, Zhu K, Xiong R G, Yan Y 2016 J. Am. Chem. Soc. 138 12360

    [115]

    Zhao D, Yu Y, Wang C, Liao W, Shrestha N, Grice C R, Cimaroli A J, Guan L, Ellingson R J, Zhu K, Zhao X, Xiong R G, Yan Y 2017 Nat. Energy 2 17018

    [116]

    Prez-del-Rey D, Forgcs D, Hutter E M, Savenije T J, Nordlund D, Schulz P, Berry J J, Sessolo M, Bolink H J 2016 Adv. Mater. 28 9839

    [117]

    Navas J, Snchez-Coronilla A, Gallardo J J, Hernndez N C, Piero J C, Alcntara R, Fernndez-Lorenzo C, de los Santos D M, Aguilar T, Martn-Calleja J 2015 Nanoscale 7 6216

    [118]

    Shai X, Zuo L, Sun P, Liao P, Huang W, Yao E P, Lia H, Liu S, Shen Y, Yang Y, Wang M 2017 Nano Energy 36 213

    [119]

    Zhang H, Wang H, Williams S T, Xiong D, Zhang W, Chueh C C, Chen W, Jen A K Y 2017 Adv. Mater. 29 1606608

    [120]

    Wang R, Zhang X, He J, Ma C, Xu L, Sheng P, Huang F 2017 J. Alloy. Compd. 695 555

    [121]

    Klug M T, Osherov A, Haghighirad A A, Stranks S D, Brown P R, Bai S, Wang J T W, Dang X, Bulovic V, Snaith H J, Belcher A M 2017 Energy Environ. Sci. 10 236

    [122]

    Williams S T, Rajagopal A, Jo S B, Chueh C C, Tang T F L, Kraegera A, Jen A K Y 2017 J. Mater. Chem. A 5 10640

    [123]

    Jahandar M, Heo J H, Song C E, Kong K J, Shin W S, Lee J C, Im S H, Moon S J 2016 Nano Energy 27 330

    [124]

    Shahbazi S, Tsai C M, Narra S, Wang C Y, Shiu H S, Afshar S, Taghavinia N, Diau E W G 2017 J. Phys. Chem. C 121 3673

    [125]

    Chen Q, Chen L, Ye F, Zhao T, Tang F, Rajagopal A, Jiang Z, Jiang S, Jen A K Y, Xie Y, Cai J, Chen L 2017 Nano Lett. 17 3231

  • [1] Xu Chang, Zheng De-Xu, Dong Xin-Rui, Wu Sa-Jian, Wu Ming-Xing, Wang Kai, Liu Sheng-Zhong. Research progress of perovskite-based triple-junction tandem solar cells. Acta Physica Sinica, 2024, 73(24): 248802. doi: 10.7498/aps.73.20241187
    [2] Wang Shi-Dong, Yan Ya-Ting, Wang Rui-Ying, Zhu Zhi-Li, Gu Jin-Hua. Cesium doping for improving performance of inverse-graded 2D (CMA)2MA8Pb9I28 perovskite film and solar cells. Acta Physica Sinica, 2023, 72(13): 138801. doi: 10.7498/aps.72.20230357
    [3] Zhang Yu, Zhou Huan-Ping. Intrinsic stability of organic-inorganic hybrid perovskite. Acta Physica Sinica, 2019, 68(15): 158804. doi: 10.7498/aps.68.20190343
    [4] Du Xiang, Chen Si, Lin Dong-Xu, Xie Fang-Yan, Chen Jian, Xie Wei-Guang, Liu Peng-Yi. Improvement of current characteristic of perovskite solar cells using dodecanedioic acid modified TiO2 electron transporting layer. Acta Physica Sinica, 2018, 67(9): 098801. doi: 10.7498/aps.67.20172779
    [5] Liu Chang-Wen, Zhou Xun, Yue Wen-Jin, Wang Ming-Tai, Qiu Ze-Liang, Meng Wei-Li, Chen Jun-Wei, Qi Juan-Juan, Dong Chao. Hybrid polymer-based solar cells with metal oxides as the main electron acceptor and transporter. Acta Physica Sinica, 2015, 64(3): 038804. doi: 10.7498/aps.64.038804
    [6] Yang Xu-Dong, Chen Han, Bi En-Bing, Han Li-Yuan. Key issues in highly efficient perovskite solar cells. Acta Physica Sinica, 2015, 64(3): 038404. doi: 10.7498/aps.64.038404
    [7] Yao Xin, Ding Yan-Li, Zhang Xiao-Dan, Zhao Ying. A review of the perovskite solar cells. Acta Physica Sinica, 2015, 64(3): 038805. doi: 10.7498/aps.64.038805
    [8] Zeng Xiang-An, Ai Bin, Deng You-Jun, Shen Hui. Study on light-induced degradation of silicon wafers and solar cells. Acta Physica Sinica, 2014, 63(2): 028803. doi: 10.7498/aps.63.028803
    [9] Xu Zhong-Hua, Chen Wei-Bing, Ye Wei-Qiong, Yang Wei-Feng. A Study of tandem structure organic solar cells composed of polymer and small molecular sub-cells. Acta Physica Sinica, 2014, 63(21): 218801. doi: 10.7498/aps.63.218801
    [10] Cao Yu, Zhang Jian-Jun, Li Tian-Wei, Huang Zhen-Hua, Ma Jun, Ni Jian, Geng Xin-Hua, Zhao Ying. Optimization of the longitudinal structure of intrinsic layer in microcrystalline silicon germanium solar cell. Acta Physica Sinica, 2013, 62(3): 036102. doi: 10.7498/aps.62.036102
    [11] Fang Xin, Shen Wen-Zhong. Oxygen and carbon behaviors in multi-crystalline silicon and their effect on solar cell conversion efficiency. Acta Physica Sinica, 2011, 60(8): 088801. doi: 10.7498/aps.60.088801
    [12] Yu Huang-Zhong, Zhou Xiao-Ming, Deng Jun-Yu. Annealing treatment effects on the performances of solar cells based on different solvent blend systems. Acta Physica Sinica, 2011, 60(7): 077206. doi: 10.7498/aps.60.077206
    [13] Chen Shuang-Hong, Weng Jian, Wang Li-Jun, Zhang Chang-Neng, Huang Yang, Jiang Nian-Quan, Dai Song-Yuan. The study of interface and photoelectric performance of dye-sensitized solar cells in the applied negative bias. Acta Physica Sinica, 2011, 60(12): 128404. doi: 10.7498/aps.60.128404
    [14] Kou Dong-Xing, Liu Wei-Qing, Hu Lin-Hua, Huang Yang, Dai Song-Yuan, Jiang Nian-Quan. The investigation on the mechanism of enhanced performance of dye-sensitized solar cells after anode modified. Acta Physica Sinica, 2010, 59(8): 5857-5862. doi: 10.7498/aps.59.5857
    [15] Huang Yang, Dai Song-Yuan, Chen Shuang-Hong, Hu Lin-Hua, Kong Fan-Tai, Kou Dong-Xing, Jiang Nian-Quan. Model for series resistance photovoltaic performance of large-scale dye-sensitized solar cells. Acta Physica Sinica, 2010, 59(1): 643-648. doi: 10.7498/aps.59.643
    [16] Cai Hong-Kun, Tao Ke, Wang Lin-Shen, Zhao Jing-Fang, Sui Yan-Ping, Zhang De-Xian. Interface treatment of amorphous silicon thin film solar cells on flexible substrate. Acta Physica Sinica, 2009, 58(11): 7921-7925. doi: 10.7498/aps.58.7921
    [17] Weng Jian, Xiao Shang-Feng, Chen Shuang-Hong, Dai Song-Yuan. Research on the dye-sensitized solar cell module. Acta Physica Sinica, 2007, 56(6): 3602-3606. doi: 10.7498/aps.56.3602
    [18] Dai Song-Yuan, Kong Fan-Tai, Hu Lin-Hua, Shi Cheng-Wu, Fang Xia-Qin, Pan Xu, Wang Kong-Jia. Investigation on the dye-sensitized solar cell. Acta Physica Sinica, 2005, 54(4): 1919-1926. doi: 10.7498/aps.54.1919
    [19] Xu Wei-Wei, Dai Song-Yuan, Fang Xia-Qin, Hu Lin-Hua, Kong Fan-Tai, Pan Xu, Wang Kong-Jia. Optimization of photoelectrode introduced to dye-sensitized solar cells by anodic oxidative hydrolysis. Acta Physica Sinica, 2005, 54(12): 5943-5948. doi: 10.7498/aps.54.5943
    [20] Zeng Long-Yue, Dai Song-Yuan, Wang Kong-Jia, Shi Cheng-Wu, Kong Fan-Tai, Hu Lin-Hua, Pan Xu. The mechanism of dye-sensitized solar cell based on nanocrystalline ZnO films. Acta Physica Sinica, 2005, 54(1): 53-57. doi: 10.7498/aps.54.53
Metrics
  • Abstract views:  8683
  • PDF Downloads:  587
  • Cited By: 0
Publishing process
  • Received Date:  04 September 2017
  • Accepted Date:  30 September 2017
  • Published Online:  20 January 2019

/

返回文章
返回