-
The energy extracted from solar radiation is the most abundant and accessible source of renewable energy, which will become progressively more important as time goes on. Solar cells are regarded as one of the most promising candidates for generating renewable clean energy. Recently, a new class of semiconducting material called organic-inorganic halide perovskite has received great attention of academia, and the record power conversion efficiency (PCE) of perovskite solar cell (PSC) rapidly increased from 3.8% in 2009 to 22.7% in late 2017 through intensive research due to some advantages as follows. 1) Excellent optoelectronic property. Perovskite materials exhibit excellent properties, including long diffusion length, high carrier mobility, and high absorption coefficient. 2) Low cost. The ingredients of perovskite materials are cheap, and PSCs can be manufactured by a solution process. 3) Tunable bandgap. Perovskite materials have highly tunable bandgap (1.2-2.2 eV), contributing to the further improvement in PCE of single junction PSCs by realizing the ideal bandgap (1.3-1.4 eV) as demonstrated by the Shockley-Queisser detailed balanced calculation. The basic architectures of PSCs are divided mainly into mesoscopic and planar heterojunction structures. Compared with the former configuration, the later configuration combined with low-temperature processable interlayers provides a method of fabricating flexible PSCs and tandem PSCs. Furthermore, the nonuse of the mesoscopic structure simplifies the structure of PSCs and reduces the cost and time of fabrication. The key requirement to achieve an efficient and reproducible planar heterojunction PSCs is that the perovskite layer should be uniform, continuous, and pinhole free to minimize shunting pathways. So, significant research effort is being devoted to the quality management of perovskite films with the goal of achieving the controllable preparation, including the optimization of their morphology (uniformity, coverage, roughness) and microstructure (grain size/distribution, texture), and the elimination of defects (voids, pinholes, grain boundaries), which influence the PSC performance directly. Especially for the one-step solution coating method, the film quality of perovskite on different planar substrates under varied deposition conditions exhibits a large difference, due to the complex crystallization process and the heightened sensitivity to environmental conditions. In this paper, the characteristics of perovskite materials, the nucleation-growth mechanism of films in the one-step solution method, and the evolution of cell structures are described briefly. The latest quality control methods of high-quality perovskite films prepared by solution method are then discussed emphatically. Finally, to provide references for the future research, the development and existing problems of PSCs are addressed and prospected.
-
Keywords:
- perovskite solar cell /
- planar heterojunction /
- quality control /
- high efficiency
[1] Ono L K, Qi Y B 2018 J. Phys. D: Appl. Phys. 51 093001
[2] Correa-Baena J P, Saliba M, Buonassisi T, Gratzel M, Abate A, Tress W, Hagfeldt A 2017 Science 358 739
[3] Fu K L, Zhou Q, Chen Y S, Lu J X, Yang S E 2015 J. Opt. 17 105904
[4] Shi Z F, Li S, Li Y, Ji H F, Li X J, Wu D, Xu T T, Chen Y S, Tian Y T, Zhang Y T, Shan C X, Du G T 2018 ACS Nano 12 1462
[5] Shi Z F, Sun X G, Wu D, Xu T T, Tian Y T, Zhang Y T, Li X J, Du G T 2016 J. Mater. Chem. 4 8373
[6] Wang F Z, Tan Z A, Dai S Y, Li Y F 2015 Acta Phys. Sin. 64 038401 (in Chinese) [王福芝, 谭占鳌, 戴松元, 李永舫 2015 64 038401]
[7] Chen L, Zhang L W, Chen Y S 2018 Acta Phys. Sin. 67 028801 (in Chinese) [陈亮, 张利伟, 陈永生 2018 67 028801]
[8] 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 64 038805]
[9] Kojima A, Teshima K, Shirai Y, Miyasaka T 2009 J. Am. Chem. Soc. 131 6050
[10] NREL Chart, https://www.nrel.gov/pv/assets/images/efficiency-chart.png [2018-4-25]
[11] Stamplecoskie K G, Manser J S, Kamat P V 2015 Energy Environ. Sci. 8 208
[12] Heo J H, Im S H, Noh J H, Mandal T N, Lim C S, Chang J A, Lee Y H, Kim H j, Sarkar A, Nazeeruddin Md K, Gratzel M, Seok S I 2013 Nat. Photon. 7 486
[13] Yin W J, Shi T T, Yan Y F 2014 Appl. Phys. Lett. 104 063903
[14] Bai Y B, Wang Q Y, L R T, Zhu H W, Kang F Y 2016 Chin. Sci. Bull. 61 489 (in Chinese) [白宇冰, 王秋莹, 吕瑞涛, 朱宏伟, 康飞宇 2016 科学通报 61 489]
[15] Im J H, Lee C R, Lee J W, Park S W, Park N G 2011 Nanoscale 3 4088
[16] Kim H S, Lee C R, Im J H, Lee K B, Moehl T, Marchioro A, Moon S J, Humphry-Baker R, Yum J H, Moser J E, Grtze M, Park N G 2012 Sci. Rep. 2 591
[17] Lee M M, Teuscher J, Miyasaka T, Murakami T N, Snaith H J 2012 Science 338 643
[18] Etgar L, Gao P, Xue Z, Peng Q, Chandiran A K, Liu B, Nazeeruddin M K, Gratzel M 2012 J. Am. Chem. Soc. 134 17396
[19] Eperon G E, Burlakov V M, Docampo P, Goriely A, Snaith H J 2014 Adv. Funct. Mater. 24 151
[20] Liu M, Johnston M B, Snaith H J 2013 Nature 501 395
[21] Zhou H, Chen Q, Li G, Luo S, Song T B, Duan H S, Hong Z, You J, Liu Y, Yang Y 2014 Science 345 542
[22] Jeng J Y, Chiang Y F, Lee M H, Peng S R, Guo T F, Chen P, Wen T C 2013 Adv. Mater. 25 3727
[23] Shao Y C, Yuan Y B, Huang J S 2016 Nat. Energy 1 15001
[24] Listorti A, Juarez-Perez E J, Frontera C, Roiati V, Garcia-Andrade L, Colella S, Rizzo A, Ortiz P, Mora-Sero I 2015 J. Phys. Chem. Lett. 6 1628
[25] Park B W, Philippe B, Gustafsson T, Sveinbjornsson K, Hagfeldt A, Johansson E M J, Boschloo G 2014 Chem. Mater. 26 4466
[26] Zhou Y Y, Game O S, Pang S P, Padture N P 2015 J. Phys. Chem. Lett. 6 4827
[27] Venables J A, Spiller G D T, Hanbucken M 1984 Rep. Prog. Phys. 47 399
[28] Burschka J, Pellet N, Moon S J, Humphry-Baker R, Gao P, Nazeeruddin M K, Gratzel M 2013 Nature 499 316
[29] Eperon G E, Burlakov V M, Goriely A, Snaith H J 2014 ACS Nano 8 591
[30] Zheng Y C, Yang S, Chen X, Chen Y, Hou Y, Yang H G 2015 Chem. Mater. 27 5116
[31] Jeon N J, Noh J H, Kim Y C, Yang W S, Ryu S, Seok S I 2014 Nat. Mater. 13 897
[32] Moore D T, Sai H, Tan K W, Smilgies D M, Zhang W, Snaith H J, Wiesner U, Estroff L A 2015 J. Am. Chem. Soc. 137 2350
[33] Zhang W, Saliba M, Moore D T, Pathak S K, Horantner M T, Stergiopoulos T, Stranks S D, Eperon G E, Alexander-Webber J A, Abate A 2015 Nat. Commun. 6 6142
[34] Bai S, Sakai N, Zhan W, Wang Z P, Wang J T W, Gao F, Snaith H J 2017 Chem. Mater. 29 462
[35] Sakai N, Wang Z P, Burlakov V M, Lim J, McMeekin D, Pathak S, Snaith H J 2017 Small 13 1602808
[36] Li S S, Chang C H, Wang Y C, Lin C W, Wang D Y, Lin J C, Chen C C, Sheu H S, Chia H C, Wu W R 2016 Energy Environ. Sci. 9 1282
[37] Bi D Q, Yi C Y, Luo J S, Decoppet J D, Zhang F, Zakeeruddin S M, Li X, Hagfeldt A, Gratzel M 2016 Nat. Energy 1 16142
[38] Kim D H, Park J, Li Z, Yang M J, Park J S, Park I J, Kim J Y, Berry J J, Rumbles G, Zhu K 2017 Adv. Mater. 29 1606831
[39] Li H T, Jiang Y X, Tu L M, Li S H, Pan L, Li W B, Yang S E, Chen Y S 2018 Acta Phys. Sin. 67 053301 (in Chinese) [李海涛, 江亚晓, 涂丽敏, 李少华, 潘玲, 李文标, 杨仕娥, 陈永生 2018 67 053301]
[40] Foley B J, Girard J, Sorenson B A, Chen A Z, Niezgoda J S, Alpert M R, Harper A F, Smilgies D M, Clancy P, Saidi W A 2017 J. Mater. Chem. A 5 113
[41] Chen J Z, Xiong Y L, Rong Y G, Mei A Y, Sheng Y S, Jiang P, Hu Y, Li X, Han H W 2016 Nano Energy 27 130
[42] Cai B, Zhang W H, Qiu J S 2015 Chin. J. Catal. 36 1183
[43] Rong Y G, Venkatesan S, Guo R, Wang Y N, Bao J M, Li W Z, Fan Z Y, Yao Y 2016 Nanoscale 8 12892
[44] Liu Z H, Hu J N, Jiao H Y, Li L, Zheng G H J, Chen Y H, Huang Y, Zhang Q, Shen C, Chen Q 2017 Adv. Mater. 29 1606774
[45] Yan K Y, Long M Z, Zhang T K, Wei Z H, Chen H N, Yang S H, Xu J B 2015 J. Am. Chem. Soc. 137 4460
[46] Wu Y Z, Islam A, Yang X D, Qin C J, Liu J, Zhang K, Peng W Q, Han L Y 2014 Energy Environ. Sci. 7 2934
[47] Tsai H, Nie W Y, Lin Y H, Blancon J C, Tretiak S, Even J, Gupta G, Ajayan P M, Mohite A D 2017 Adv. Energy Mater. 7 1602159
[48] Kim H B, Choi H, Jeong J, Kim S, Walker B, Song S, Kim J Y 2014 Nanoscale 6 6679
[49] Wang Z W, Zhou Y Y, Pang S P, Xiao Z W, Zhang J L, Chai W Q, Xu H X, Liu Z H, Nitin P, Padture, Cui C L 2015 Chem. Mater. 27 7149
[50] Li T T, Pan Y F, Wang Z, Xia Y D, Chen Y H, Huang W 2017 J. Mater. Chem. A 5 12602
[51] Noel N K, Abate A, Stranks S D, Parrott E S, Burlakov V M, Goriely A, Snaith H J 2014 ACS Nano 8 9815
[52] Song X, Wang W, Sun P, Ma W, Chen Z K 2015 Appl. Phys. Lett. 106 033901
[53] Liang P W, Liao C Y, Chueh C C, Zuo F, Williams S T, Xin X K, Lin J, Hen A K Y 2014 Adv. Mater. 26 3748
[54] Ahn N, Son D Y, Jang I H, Kang S M, Choi M, Park N G 2015 J. Am. Chem. Soc. 137 8696
[55] Yang M J, Kim D H, Yu Y, Li Z, Reid O G, Song Z N, Zhao D W, Wang C L, Li L W, Meng Y, Guo T, Yan Y F, Zhu K 2018 Mater. Today Energy 7 232
[56] Li M J, Li B, Cao G Z, Tian J J 2017 J. Mater. Chem. A 5 21313
[57] Li B, Li M J, Fei C B, Cao G Z, Tian J J 2017 J. Mater. Chem. A 5 24168
[58] Si H N, Liao Q L, Kang Z, Ou Y, Meng J J, Liu Y C, Zhang Z, Zhang Y 2017 Adv. Funct. Mater. 27 1701804
[59] Wu Y Z, Xie F X, Chen H, Yang X D, Su H M, Cai M L, Zhou Z M, Takeshi N, Han L Y 2017 Adv. Mater. 29 1701073
[60] Huang Z Q, Hu X T, Liu C, Tan L C, Chen Y W 2017 Adv. Funct. Mater. 27 1703061
[61] Fei C B, Li B, Zhang R, Fu H Y, Tian J J, Cao G Z 2017 Adv. Energy Mater. 7 1602017
[62] Zhu L F, Xu Y Z, Zhang P P, Shi J J, Zhao Y H, Zhang H Y, Wu J H, Luo Y H, Li D M, Meng Q B 2017 J. Mater. Chem. A 5 20874
[63] Li H S, Li Y S, Li Y M, Shi J J, Zhang H Y, Xu X, Wu J H, Wu H J, Luo Y H, Li D M, Meng Q B 2017 Nano Energy 42 222
[64] Sun M N, Zhang F, Liu H L, Li X G, Xiao Y, Wang S R 2017 J. Mater. Chem. A 5 13448
[65] 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
[66] Long M Z, Zhang T K, Chai Y, Ng C F, Mak T C W, Xu J B, Yan K Y 2016 Nat. Commun. 7 13503
[67] Noel N K, Habisreutinger S N, Wenger B, Klug M T, Horantner M T, Johnston M B, Nicholas R J, Moore D T, Snaith H J 2017 Energy Environ. Sci. 10 145
[68] Fang X, Wu Y H, Lu Y T, Sun Y, Zhang S, Zhang J, Zhang W H, Yuan N Y, Ding J N 2017 J. Mater. Chem. C 5 842
[69] Chen H, Ye F, Tang W T, He J J, Yin M S, Wang Y B, Xie F X, Bi E B, Yang X D, Grtze M, Han L Y 2017 Nature 550 92
[70] Kang R, Kim J E, Yeo J S, Lee S, Jeon Y J, Kim D Y 2014 J. Phys. Chem. C 118 26513
[71] Yu Y, Yang S W, Lei L, Liu Y 2017 Nanoscale 9 2569
[72] Nie W Y, Tsai H H, Asadpour R, Blancon J C, Neukirch A J, Gupta G, Crochet J J, Chhowalla M, Tretiak S, Alam M A, Wang H L, Mohite A D 2015 Science 347 522
[73] Liao H C, Guo P J, Hsu C P, Lin M, Wang B H, Zeng L, Huang W, Soe C M M, Su W F, Bedzyk M J, Wasielewski M R, Facchetti A, Chang R P H, Kanatzidis M G, Marks T J 2017 Adv. Energy Mater. 7 1601660
[74] Huang F Z, Dkhissi Y, Huang W C, Xiao M D, Benesperi I, Rubanov S, Zhu Y, Lin X F, Jiang L C, Zhou Y C, Gray-Weale A, Etheridge J, McNeill C R, Caruso R A, Bach U, Spiccia L, Cheng Y B 2014 Nano Energy 10 10
[75] Li X, Bi D Q, Yi C Y, Dcoppet J D, Luo J S, Zakeeruddin S M, Hagfeldt A, Grtze M 2016 Science 353 58
[76] Ding B, Li Y, Huang S Y, Chu Q Q, Li C X, Li C J, Yang G J 2017 J. Mater. Chem. A 5 6840
[77] Xiao M D, Huang F Z, Huang W C, Dkhissi Y, Zhu Y, Etheridge J, Gray-Weale A, Bach U, Cheng Y B, Spiccia L 2014 Angew. Chem. Int. Ed. 53 9898
[78] Zhou Y Y, Yang M J, Wu W W, Vasiliev A L, Zhu K, Padture N P 2015 J. Mater. Chem. A 3 8178
[79] Rong Y G, Tang Z J, Zhao Y F, Zhong X, Venkatesan S, Graham H, Patton M, Jing Y, Guloy A M, Yao Y 2015 Nanoscale 7 10595
[80] Yin X W, Yao Z B, Luo Q, Dai X Z, Zhou Y, Zhang Y, Zhou Y Y, Luo S P, Li J B, Wang N, Lin H 2017 ACS Appl. Mater. Interfaces 9 2439
[81] Domanski K, Roose B, Matsui T, Saliba M, Turren-Cruz S H, Correa-Baena J P, Carmona C R, Richardson G, Foster J M, de Angelis F, Ball J M, Petrozza A, Mine N, Nazeeruddin M K, Tress W, Gratzel M, Steiner U, Hagfeldt A, Abate A 2017 Energy Environ. Sci. 10 604
[82] Bi D Q, Luo J S, Zhang F, Magrez A, Athanasopoulou E N, Hagfeldt A, Gratzel M 2017 Chem. Sus. Chem. 10 1624
[83] Wu Y Z, Yang X D, Chen W, Yue Y F, Cai M L, Xie F X, Bi E B, Islam A, Han L Y 2016 Nat. Energy 1 16148
[84] DeQuilettes D W, Vorpahl S M, Stranks S D, Nagaoka H, Eperon G E, Ziffer M E, Snaith H J, Ginger D S 2015 Science 348 683
[85] Ngo T T, Suarez I, Antonicelli G, Cortizo-Lacalle D, Martinez-Pastor J P, Mateo-Alonso A, Mora-Sero I 2017 Adv. Mater. 29 1604056
[86] Kumar P, Zhao B D, Friend R H, Sadhanala A, Narayan K S 2017 ACS Appl. Mater. Interfaces 2 81
[87] Zhang F, Shi W D, Luo J S, Pellet N, Yi C Y, Li X, Zhao X M, Dennis T J S, Li X G, Wang S R, Xiao Y, Zakeeruddin S M, Bi D Q, Grtze M 2017 Adv. Mater. 29 1606806
[88] Ren Y K, Ding X H, Wu Y H, Zhu J, Hayat T, Alsaedi A, Xu Y F, Li Z Q, Yang S F, Dai S Y 2017 J. Mater. Chem. A 5 20327
[89] Ye J J, Zhang X H, Zhu L Z, Zheng H Y, Liu G Z, Wang H X, Hayat T, Pan X, Da S Y 2017 Sustainable Energy Fuels 1 907
[90] Troughton J, Hooper K, Watson T M 2017 Nano Energy 39 60
[91] Bi C, Wang Q, Shao Y C, Yuan Y B, Xiao Z G, Huang J S 2015 Nat. Commun. 6 7747
[92] Wang Y R Q, Li J W, Li Q, Zhu W D, Yu T, Chen X Y, Yin L A, Zhou Y, Wang X Y, Zou Z G 2017 Chem. Commun. 53 5032
[93] Zhu W D, Bao C X, L B H, Li F M, Yi Y, Wang Y R Q, Yang J, Wang X Y, Yu T, Zou Z G 2016 J. Mater. Chem. A 4 12535
[94] Zhu W D, Kang L, Yu T, L B H, Wang Y R Q, Chen X Y, Wang X Y, Zhou Y, Zou Z G 2017 ACS Appl. Mater. Inter. 9 6104
[95] Xiao Z G, Dong Q F, Bi C, Shao Y C, Yuan Y B, Huang J S 2014 Adv. Mater. 26 6503
[96] Liu J, Gao C, He X L, Ye Q Y, Ouyang L Q, Zhuang D M, Liao C, Mei J, Lau W M 2015 ACS Appl. Mater. Interfaces 7 24008
[97] Jiang Y, Juarez-Perez E J, Ge Q Q, Wang S H, Leyden M R, Ono L K, Raga S R, Hu J, Qi Y 2016 Mater. Horiz. 3 548
[98] Ummadisingu A, Steier L, Seo J Y, Matsui T, Abate A, Tress W, Grtze M 2017 Nature 545 208
[99] Xie F X, Chen C C, Wu Y Z, Li X, Cai M L, Liu X, Yang X D, Han L Y 2017 Energy Environ. Sci. 10 1942
[100] Sanchez S, Hua X, Phung N, Steiner U, Abate A 2018 Adv. Energy Mater. 8 1702915
[101] Zhao Y X, Zhu K 2014 Chem. Commun. 50 1605
[102] Zhou Z M, Wang Z W, Zhou Y Y, Pang S P, Wang D, Xu H X, Liu Z H, Padture N P, Cui G L 2015 Angew. Chem. Int. Ed. 54 9705
[103] Li C W, Pang S P, Xu H X, Cui G L 2017 Sol. RRL 1 1700076
[104] Raga S R, Jiang Y, Ono L K, Qi Y B 2017 Energy Technol. 5 1750
[105] Zhao T, Williams S T, Chueh C C, de Quilettes D W, Liang P W, Ginger D S, Jen A K Y 2016 RSC Adv. 6 27475
[106] Chang Y, Wang L, ZhangJ L, Zhou Z M, Li C W, Chen B B, Etgar L, Cui G L, Pang S P 2017 J. Mater. Chem. A 5 4803
[107] Chih Y K, Wang J C, Yang R T, Liu C C, Chang Y C, Fu Y S, Lai W C, Chen P, Wen T C, Huang Y C, Tsao C S, Guo T F 2016 Adv. Mater. 28 8687
[108] Hong L, Hu Y, Mei A Y, Sheng Y S, Jiang P, Tian C B, Rong Y G, Han H W 2017 Adv. Funct. Mater. 27 1703060
[109] Jiang Y X, Tu L M, Li H T, Li S H, Yang S E, Chen Y S 2018 Crystals 8 44
[110] Zhou Y Y, Yang M J, Pang S P, Zhu K, Padture N P 2016 J. Am. Chem. Soc. 138 5535
[111] Jain S M, Qiu Z, Haggman L, Mirmohades M, Johansson M B, Edvinsson T, Boschloo G 2016 Energy Environ. Sci. 9 3770
[112] Jacobs D L, Zang L 2016 Chem. Commun. 52 10743
[113] Pang S P, Zhou Y Y, Wang Z W, Yang M J, Krause A R, Zhou Z M, Zhu K, Padture N P, Cui G L 2016 J. Am. Chem. Soc. 138 750
[114] Longa M Z, Zhang T K, Zhu H Y, Li G X, Wang F, Guo W Y, Chai Y, Chen W, Li Q, Wong K S, Xu J B, Yan K Y 2017 Nano Energy 33 485
[115] Zhang T Y, Guo N J, Li G, Qian X F, Zhao Y X 2016 Nano Energy 26 50
[116] Raga S R, Ono L K, Qi Y B 2016 J. Mater. Chem. A 4 2494
[117] Zhang T Y, Li G, Xu F, Wang Y P, Guo N J, Qian X F, Zhao Y X 2016 Chem. Commun. 52 11080
[118] Zong Y X, Zhou Y Y, Ju M G, Garces H F, Krause A R, Ji F X, Cui G L, Zeng X C, Padture N P, Pang S P 2016 Angew. Chem. Int. Ed. 55 14723
-
[1] Ono L K, Qi Y B 2018 J. Phys. D: Appl. Phys. 51 093001
[2] Correa-Baena J P, Saliba M, Buonassisi T, Gratzel M, Abate A, Tress W, Hagfeldt A 2017 Science 358 739
[3] Fu K L, Zhou Q, Chen Y S, Lu J X, Yang S E 2015 J. Opt. 17 105904
[4] Shi Z F, Li S, Li Y, Ji H F, Li X J, Wu D, Xu T T, Chen Y S, Tian Y T, Zhang Y T, Shan C X, Du G T 2018 ACS Nano 12 1462
[5] Shi Z F, Sun X G, Wu D, Xu T T, Tian Y T, Zhang Y T, Li X J, Du G T 2016 J. Mater. Chem. 4 8373
[6] Wang F Z, Tan Z A, Dai S Y, Li Y F 2015 Acta Phys. Sin. 64 038401 (in Chinese) [王福芝, 谭占鳌, 戴松元, 李永舫 2015 64 038401]
[7] Chen L, Zhang L W, Chen Y S 2018 Acta Phys. Sin. 67 028801 (in Chinese) [陈亮, 张利伟, 陈永生 2018 67 028801]
[8] 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 64 038805]
[9] Kojima A, Teshima K, Shirai Y, Miyasaka T 2009 J. Am. Chem. Soc. 131 6050
[10] NREL Chart, https://www.nrel.gov/pv/assets/images/efficiency-chart.png [2018-4-25]
[11] Stamplecoskie K G, Manser J S, Kamat P V 2015 Energy Environ. Sci. 8 208
[12] Heo J H, Im S H, Noh J H, Mandal T N, Lim C S, Chang J A, Lee Y H, Kim H j, Sarkar A, Nazeeruddin Md K, Gratzel M, Seok S I 2013 Nat. Photon. 7 486
[13] Yin W J, Shi T T, Yan Y F 2014 Appl. Phys. Lett. 104 063903
[14] Bai Y B, Wang Q Y, L R T, Zhu H W, Kang F Y 2016 Chin. Sci. Bull. 61 489 (in Chinese) [白宇冰, 王秋莹, 吕瑞涛, 朱宏伟, 康飞宇 2016 科学通报 61 489]
[15] Im J H, Lee C R, Lee J W, Park S W, Park N G 2011 Nanoscale 3 4088
[16] Kim H S, Lee C R, Im J H, Lee K B, Moehl T, Marchioro A, Moon S J, Humphry-Baker R, Yum J H, Moser J E, Grtze M, Park N G 2012 Sci. Rep. 2 591
[17] Lee M M, Teuscher J, Miyasaka T, Murakami T N, Snaith H J 2012 Science 338 643
[18] Etgar L, Gao P, Xue Z, Peng Q, Chandiran A K, Liu B, Nazeeruddin M K, Gratzel M 2012 J. Am. Chem. Soc. 134 17396
[19] Eperon G E, Burlakov V M, Docampo P, Goriely A, Snaith H J 2014 Adv. Funct. Mater. 24 151
[20] Liu M, Johnston M B, Snaith H J 2013 Nature 501 395
[21] Zhou H, Chen Q, Li G, Luo S, Song T B, Duan H S, Hong Z, You J, Liu Y, Yang Y 2014 Science 345 542
[22] Jeng J Y, Chiang Y F, Lee M H, Peng S R, Guo T F, Chen P, Wen T C 2013 Adv. Mater. 25 3727
[23] Shao Y C, Yuan Y B, Huang J S 2016 Nat. Energy 1 15001
[24] Listorti A, Juarez-Perez E J, Frontera C, Roiati V, Garcia-Andrade L, Colella S, Rizzo A, Ortiz P, Mora-Sero I 2015 J. Phys. Chem. Lett. 6 1628
[25] Park B W, Philippe B, Gustafsson T, Sveinbjornsson K, Hagfeldt A, Johansson E M J, Boschloo G 2014 Chem. Mater. 26 4466
[26] Zhou Y Y, Game O S, Pang S P, Padture N P 2015 J. Phys. Chem. Lett. 6 4827
[27] Venables J A, Spiller G D T, Hanbucken M 1984 Rep. Prog. Phys. 47 399
[28] Burschka J, Pellet N, Moon S J, Humphry-Baker R, Gao P, Nazeeruddin M K, Gratzel M 2013 Nature 499 316
[29] Eperon G E, Burlakov V M, Goriely A, Snaith H J 2014 ACS Nano 8 591
[30] Zheng Y C, Yang S, Chen X, Chen Y, Hou Y, Yang H G 2015 Chem. Mater. 27 5116
[31] Jeon N J, Noh J H, Kim Y C, Yang W S, Ryu S, Seok S I 2014 Nat. Mater. 13 897
[32] Moore D T, Sai H, Tan K W, Smilgies D M, Zhang W, Snaith H J, Wiesner U, Estroff L A 2015 J. Am. Chem. Soc. 137 2350
[33] Zhang W, Saliba M, Moore D T, Pathak S K, Horantner M T, Stergiopoulos T, Stranks S D, Eperon G E, Alexander-Webber J A, Abate A 2015 Nat. Commun. 6 6142
[34] Bai S, Sakai N, Zhan W, Wang Z P, Wang J T W, Gao F, Snaith H J 2017 Chem. Mater. 29 462
[35] Sakai N, Wang Z P, Burlakov V M, Lim J, McMeekin D, Pathak S, Snaith H J 2017 Small 13 1602808
[36] Li S S, Chang C H, Wang Y C, Lin C W, Wang D Y, Lin J C, Chen C C, Sheu H S, Chia H C, Wu W R 2016 Energy Environ. Sci. 9 1282
[37] Bi D Q, Yi C Y, Luo J S, Decoppet J D, Zhang F, Zakeeruddin S M, Li X, Hagfeldt A, Gratzel M 2016 Nat. Energy 1 16142
[38] Kim D H, Park J, Li Z, Yang M J, Park J S, Park I J, Kim J Y, Berry J J, Rumbles G, Zhu K 2017 Adv. Mater. 29 1606831
[39] Li H T, Jiang Y X, Tu L M, Li S H, Pan L, Li W B, Yang S E, Chen Y S 2018 Acta Phys. Sin. 67 053301 (in Chinese) [李海涛, 江亚晓, 涂丽敏, 李少华, 潘玲, 李文标, 杨仕娥, 陈永生 2018 67 053301]
[40] Foley B J, Girard J, Sorenson B A, Chen A Z, Niezgoda J S, Alpert M R, Harper A F, Smilgies D M, Clancy P, Saidi W A 2017 J. Mater. Chem. A 5 113
[41] Chen J Z, Xiong Y L, Rong Y G, Mei A Y, Sheng Y S, Jiang P, Hu Y, Li X, Han H W 2016 Nano Energy 27 130
[42] Cai B, Zhang W H, Qiu J S 2015 Chin. J. Catal. 36 1183
[43] Rong Y G, Venkatesan S, Guo R, Wang Y N, Bao J M, Li W Z, Fan Z Y, Yao Y 2016 Nanoscale 8 12892
[44] Liu Z H, Hu J N, Jiao H Y, Li L, Zheng G H J, Chen Y H, Huang Y, Zhang Q, Shen C, Chen Q 2017 Adv. Mater. 29 1606774
[45] Yan K Y, Long M Z, Zhang T K, Wei Z H, Chen H N, Yang S H, Xu J B 2015 J. Am. Chem. Soc. 137 4460
[46] Wu Y Z, Islam A, Yang X D, Qin C J, Liu J, Zhang K, Peng W Q, Han L Y 2014 Energy Environ. Sci. 7 2934
[47] Tsai H, Nie W Y, Lin Y H, Blancon J C, Tretiak S, Even J, Gupta G, Ajayan P M, Mohite A D 2017 Adv. Energy Mater. 7 1602159
[48] Kim H B, Choi H, Jeong J, Kim S, Walker B, Song S, Kim J Y 2014 Nanoscale 6 6679
[49] Wang Z W, Zhou Y Y, Pang S P, Xiao Z W, Zhang J L, Chai W Q, Xu H X, Liu Z H, Nitin P, Padture, Cui C L 2015 Chem. Mater. 27 7149
[50] Li T T, Pan Y F, Wang Z, Xia Y D, Chen Y H, Huang W 2017 J. Mater. Chem. A 5 12602
[51] Noel N K, Abate A, Stranks S D, Parrott E S, Burlakov V M, Goriely A, Snaith H J 2014 ACS Nano 8 9815
[52] Song X, Wang W, Sun P, Ma W, Chen Z K 2015 Appl. Phys. Lett. 106 033901
[53] Liang P W, Liao C Y, Chueh C C, Zuo F, Williams S T, Xin X K, Lin J, Hen A K Y 2014 Adv. Mater. 26 3748
[54] Ahn N, Son D Y, Jang I H, Kang S M, Choi M, Park N G 2015 J. Am. Chem. Soc. 137 8696
[55] Yang M J, Kim D H, Yu Y, Li Z, Reid O G, Song Z N, Zhao D W, Wang C L, Li L W, Meng Y, Guo T, Yan Y F, Zhu K 2018 Mater. Today Energy 7 232
[56] Li M J, Li B, Cao G Z, Tian J J 2017 J. Mater. Chem. A 5 21313
[57] Li B, Li M J, Fei C B, Cao G Z, Tian J J 2017 J. Mater. Chem. A 5 24168
[58] Si H N, Liao Q L, Kang Z, Ou Y, Meng J J, Liu Y C, Zhang Z, Zhang Y 2017 Adv. Funct. Mater. 27 1701804
[59] Wu Y Z, Xie F X, Chen H, Yang X D, Su H M, Cai M L, Zhou Z M, Takeshi N, Han L Y 2017 Adv. Mater. 29 1701073
[60] Huang Z Q, Hu X T, Liu C, Tan L C, Chen Y W 2017 Adv. Funct. Mater. 27 1703061
[61] Fei C B, Li B, Zhang R, Fu H Y, Tian J J, Cao G Z 2017 Adv. Energy Mater. 7 1602017
[62] Zhu L F, Xu Y Z, Zhang P P, Shi J J, Zhao Y H, Zhang H Y, Wu J H, Luo Y H, Li D M, Meng Q B 2017 J. Mater. Chem. A 5 20874
[63] Li H S, Li Y S, Li Y M, Shi J J, Zhang H Y, Xu X, Wu J H, Wu H J, Luo Y H, Li D M, Meng Q B 2017 Nano Energy 42 222
[64] Sun M N, Zhang F, Liu H L, Li X G, Xiao Y, Wang S R 2017 J. Mater. Chem. A 5 13448
[65] 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
[66] Long M Z, Zhang T K, Chai Y, Ng C F, Mak T C W, Xu J B, Yan K Y 2016 Nat. Commun. 7 13503
[67] Noel N K, Habisreutinger S N, Wenger B, Klug M T, Horantner M T, Johnston M B, Nicholas R J, Moore D T, Snaith H J 2017 Energy Environ. Sci. 10 145
[68] Fang X, Wu Y H, Lu Y T, Sun Y, Zhang S, Zhang J, Zhang W H, Yuan N Y, Ding J N 2017 J. Mater. Chem. C 5 842
[69] Chen H, Ye F, Tang W T, He J J, Yin M S, Wang Y B, Xie F X, Bi E B, Yang X D, Grtze M, Han L Y 2017 Nature 550 92
[70] Kang R, Kim J E, Yeo J S, Lee S, Jeon Y J, Kim D Y 2014 J. Phys. Chem. C 118 26513
[71] Yu Y, Yang S W, Lei L, Liu Y 2017 Nanoscale 9 2569
[72] Nie W Y, Tsai H H, Asadpour R, Blancon J C, Neukirch A J, Gupta G, Crochet J J, Chhowalla M, Tretiak S, Alam M A, Wang H L, Mohite A D 2015 Science 347 522
[73] Liao H C, Guo P J, Hsu C P, Lin M, Wang B H, Zeng L, Huang W, Soe C M M, Su W F, Bedzyk M J, Wasielewski M R, Facchetti A, Chang R P H, Kanatzidis M G, Marks T J 2017 Adv. Energy Mater. 7 1601660
[74] Huang F Z, Dkhissi Y, Huang W C, Xiao M D, Benesperi I, Rubanov S, Zhu Y, Lin X F, Jiang L C, Zhou Y C, Gray-Weale A, Etheridge J, McNeill C R, Caruso R A, Bach U, Spiccia L, Cheng Y B 2014 Nano Energy 10 10
[75] Li X, Bi D Q, Yi C Y, Dcoppet J D, Luo J S, Zakeeruddin S M, Hagfeldt A, Grtze M 2016 Science 353 58
[76] Ding B, Li Y, Huang S Y, Chu Q Q, Li C X, Li C J, Yang G J 2017 J. Mater. Chem. A 5 6840
[77] Xiao M D, Huang F Z, Huang W C, Dkhissi Y, Zhu Y, Etheridge J, Gray-Weale A, Bach U, Cheng Y B, Spiccia L 2014 Angew. Chem. Int. Ed. 53 9898
[78] Zhou Y Y, Yang M J, Wu W W, Vasiliev A L, Zhu K, Padture N P 2015 J. Mater. Chem. A 3 8178
[79] Rong Y G, Tang Z J, Zhao Y F, Zhong X, Venkatesan S, Graham H, Patton M, Jing Y, Guloy A M, Yao Y 2015 Nanoscale 7 10595
[80] Yin X W, Yao Z B, Luo Q, Dai X Z, Zhou Y, Zhang Y, Zhou Y Y, Luo S P, Li J B, Wang N, Lin H 2017 ACS Appl. Mater. Interfaces 9 2439
[81] Domanski K, Roose B, Matsui T, Saliba M, Turren-Cruz S H, Correa-Baena J P, Carmona C R, Richardson G, Foster J M, de Angelis F, Ball J M, Petrozza A, Mine N, Nazeeruddin M K, Tress W, Gratzel M, Steiner U, Hagfeldt A, Abate A 2017 Energy Environ. Sci. 10 604
[82] Bi D Q, Luo J S, Zhang F, Magrez A, Athanasopoulou E N, Hagfeldt A, Gratzel M 2017 Chem. Sus. Chem. 10 1624
[83] Wu Y Z, Yang X D, Chen W, Yue Y F, Cai M L, Xie F X, Bi E B, Islam A, Han L Y 2016 Nat. Energy 1 16148
[84] DeQuilettes D W, Vorpahl S M, Stranks S D, Nagaoka H, Eperon G E, Ziffer M E, Snaith H J, Ginger D S 2015 Science 348 683
[85] Ngo T T, Suarez I, Antonicelli G, Cortizo-Lacalle D, Martinez-Pastor J P, Mateo-Alonso A, Mora-Sero I 2017 Adv. Mater. 29 1604056
[86] Kumar P, Zhao B D, Friend R H, Sadhanala A, Narayan K S 2017 ACS Appl. Mater. Interfaces 2 81
[87] Zhang F, Shi W D, Luo J S, Pellet N, Yi C Y, Li X, Zhao X M, Dennis T J S, Li X G, Wang S R, Xiao Y, Zakeeruddin S M, Bi D Q, Grtze M 2017 Adv. Mater. 29 1606806
[88] Ren Y K, Ding X H, Wu Y H, Zhu J, Hayat T, Alsaedi A, Xu Y F, Li Z Q, Yang S F, Dai S Y 2017 J. Mater. Chem. A 5 20327
[89] Ye J J, Zhang X H, Zhu L Z, Zheng H Y, Liu G Z, Wang H X, Hayat T, Pan X, Da S Y 2017 Sustainable Energy Fuels 1 907
[90] Troughton J, Hooper K, Watson T M 2017 Nano Energy 39 60
[91] Bi C, Wang Q, Shao Y C, Yuan Y B, Xiao Z G, Huang J S 2015 Nat. Commun. 6 7747
[92] Wang Y R Q, Li J W, Li Q, Zhu W D, Yu T, Chen X Y, Yin L A, Zhou Y, Wang X Y, Zou Z G 2017 Chem. Commun. 53 5032
[93] Zhu W D, Bao C X, L B H, Li F M, Yi Y, Wang Y R Q, Yang J, Wang X Y, Yu T, Zou Z G 2016 J. Mater. Chem. A 4 12535
[94] Zhu W D, Kang L, Yu T, L B H, Wang Y R Q, Chen X Y, Wang X Y, Zhou Y, Zou Z G 2017 ACS Appl. Mater. Inter. 9 6104
[95] Xiao Z G, Dong Q F, Bi C, Shao Y C, Yuan Y B, Huang J S 2014 Adv. Mater. 26 6503
[96] Liu J, Gao C, He X L, Ye Q Y, Ouyang L Q, Zhuang D M, Liao C, Mei J, Lau W M 2015 ACS Appl. Mater. Interfaces 7 24008
[97] Jiang Y, Juarez-Perez E J, Ge Q Q, Wang S H, Leyden M R, Ono L K, Raga S R, Hu J, Qi Y 2016 Mater. Horiz. 3 548
[98] Ummadisingu A, Steier L, Seo J Y, Matsui T, Abate A, Tress W, Grtze M 2017 Nature 545 208
[99] Xie F X, Chen C C, Wu Y Z, Li X, Cai M L, Liu X, Yang X D, Han L Y 2017 Energy Environ. Sci. 10 1942
[100] Sanchez S, Hua X, Phung N, Steiner U, Abate A 2018 Adv. Energy Mater. 8 1702915
[101] Zhao Y X, Zhu K 2014 Chem. Commun. 50 1605
[102] Zhou Z M, Wang Z W, Zhou Y Y, Pang S P, Wang D, Xu H X, Liu Z H, Padture N P, Cui G L 2015 Angew. Chem. Int. Ed. 54 9705
[103] Li C W, Pang S P, Xu H X, Cui G L 2017 Sol. RRL 1 1700076
[104] Raga S R, Jiang Y, Ono L K, Qi Y B 2017 Energy Technol. 5 1750
[105] Zhao T, Williams S T, Chueh C C, de Quilettes D W, Liang P W, Ginger D S, Jen A K Y 2016 RSC Adv. 6 27475
[106] Chang Y, Wang L, ZhangJ L, Zhou Z M, Li C W, Chen B B, Etgar L, Cui G L, Pang S P 2017 J. Mater. Chem. A 5 4803
[107] Chih Y K, Wang J C, Yang R T, Liu C C, Chang Y C, Fu Y S, Lai W C, Chen P, Wen T C, Huang Y C, Tsao C S, Guo T F 2016 Adv. Mater. 28 8687
[108] Hong L, Hu Y, Mei A Y, Sheng Y S, Jiang P, Tian C B, Rong Y G, Han H W 2017 Adv. Funct. Mater. 27 1703060
[109] Jiang Y X, Tu L M, Li H T, Li S H, Yang S E, Chen Y S 2018 Crystals 8 44
[110] Zhou Y Y, Yang M J, Pang S P, Zhu K, Padture N P 2016 J. Am. Chem. Soc. 138 5535
[111] Jain S M, Qiu Z, Haggman L, Mirmohades M, Johansson M B, Edvinsson T, Boschloo G 2016 Energy Environ. Sci. 9 3770
[112] Jacobs D L, Zang L 2016 Chem. Commun. 52 10743
[113] Pang S P, Zhou Y Y, Wang Z W, Yang M J, Krause A R, Zhou Z M, Zhu K, Padture N P, Cui G L 2016 J. Am. Chem. Soc. 138 750
[114] Longa M Z, Zhang T K, Zhu H Y, Li G X, Wang F, Guo W Y, Chai Y, Chen W, Li Q, Wong K S, Xu J B, Yan K Y 2017 Nano Energy 33 485
[115] Zhang T Y, Guo N J, Li G, Qian X F, Zhao Y X 2016 Nano Energy 26 50
[116] Raga S R, Ono L K, Qi Y B 2016 J. Mater. Chem. A 4 2494
[117] Zhang T Y, Li G, Xu F, Wang Y P, Guo N J, Qian X F, Zhao Y X 2016 Chem. Commun. 52 11080
[118] Zong Y X, Zhou Y Y, Ju M G, Garces H F, Krause A R, Ji F X, Cui G L, Zeng X C, Padture N P, Pang S P 2016 Angew. Chem. Int. Ed. 55 14723
计量
- 文章访问数: 9750
- PDF下载量: 260
- 被引次数: 0