Photodetectors based on inorganic halide perovskites: Materials and devices

doi:10.1088/1674-1056/28/1/017803

Abstract

The newly emerging metal halide perovskites have attracted considerable attention due to their exceptional optoelectronic properties. This upsurge was initially driven when the power conversion efficiency of perovskite-based photovoltaic devices exceeded 23%. Due to their optoelectronic properties, perovskite materials have also been used in light-emitting diodes, photodetectors, lasers, and memory devices. This study comprehensively discusses the recent progress of all-inorganic perovskite-based photodetectors, focusing on their structures, morphologies of their constituent materials, and diverse device architectures that improve the performance metrics of these photodetectors. A brief outlook, highlighting the main existing problems, possible solutions to these problems, and future development directions, is also provided herein.

Keywords: perovskites all-inorganic photodetectors lead-free

Received: 07 October 2018
Revised: 12 November 2018
Accepted manuscript online:

PACS:	78.40.Fy	(Semiconductors)
	72.40.+w	(Photoconduction and photovoltaic effects)
	85.60.Gz	(Photodetectors (including infrared and CCD detectors))

Fund:

Project supported by the National Science Foundation for Distinguished Young Scholars of China (Grant No. 61425021) and the National Natural Science Foundation of China (Grant Nos. U1604263, 11774318, and 11604302).

Corresponding Authors: Zhi-Feng Shi, Chong-Xin Shan
E-mail: shizf@zzu.edu.cn;cxshan@zzu.edu.cn

Cite this article:

Ying Li(李营), Zhi-Feng Shi(史志锋), Xin-Jian Li(李新建), Chong-Xin Shan(单崇新) Photodetectors based on inorganic halide perovskites: Materials and devices 2019 Chin. Phys. B 28 017803

[1]	Lee M M, Teuscher J, Miyasaka T, Murakami T N and Snaith H J 2012 Science 338 643
[2]	Baeg K J, Binda M, Natali D, Caironi M and Noh Y Y 2013 Adv. Mater. 25 4267
[3]	Koppens F H L, Mueller T, Avouris P, Ferrari A C, Vitiello M S and Polini M 2014 Nat. Nanotechnol. 9 780
[4]	Dong Q F, Fang Y J, Shao Y C, Mulligan P, Qiu J, Cao L and Huang J S 2015 Science 347 967
[5]	Li Y, Shi Z F, Lei L Z, Zhang F, Ma Z Z, Wu D, Xu T T, Tian Y T, Zhang Y T, Du G T, Shan C X and Li X J 2018 Chem. Mater. 30 6744
[6]	Guo Y L, Liu C, Tanaka H and Nakamura E 2015 J. Phys. Chem. Lett. 6 535
[7]	Saidaminov M I, Adinolfi V, Comin R, Abdelhady A L, Peng W, Dursun I, Yuan M, Hoogl, S, Sargent E H and Bakr O M 2015 Nat. Commun. 6 8724
[8]	Adinolfi V, Ouellette O, Saidaminov M I, Walters G, Abdelhady A L, Bakr O M and Sargent E H 2016 Adv. Mater. 28 7264
[9]	Deng W, Zhang X J, Huang L M, Xu X Z, Wang L, Wang J C, Shang Q X, Lee S T and Jie J S 2016 Adv. Mater. 28 2201
[10]	Shi Z F, Sun X G, Wu D, Xu T T, Zhuang S W, Tian Y T, Li X J and Du G T 2016 Nanoscale 8 10035
[11]	Zheng Z, Zhuge F W, Wang Y G, Zhang J B, Gan L, Zhou X, Li H Q and Zhai T Y 2017 Adv. Funct. Mater. 27 1703115
[12]	Shi Z F, Li Y, Zhang Y T, Chen Y S, Li X J, Wu D, Xu T T, Shan C X and Du G T 2017 Nano Lett. 17 313
[13]	Zhang Z X, Zeng L H, Tong X W, Gao Y, Xie C, Tsang Y H, Luo L B and Wu Y C 2018 J. Phys. Chem. Lett. 9 1185
[14]	Liu Y C, Zhang Y X, Zhao K, Yang Z, Feng J S, Zhang X, Wang K, Meng L, Ye H C, Liu M and Liu S Z 2018 Adv. Mater. 30 1707314
[15]	Hu W, Wu R S, Yang S Z, Fan P, Yang J L and Pan A L 2017 J. Phys. D: Appl. Phys. 50 375101
[16]	Hu W, Huang W, Yang S Z, Wang X, Jiang Z Y, Zhu X L, Zhou H, Liu H J, Zhang Q L, Zhuang X J, Yang J L, Kim D H and Pan A L 2017 Adv. Mater. 29 1703256
[17]	Stranks S D, Eperon G E, Grancini G, Menelaou C, Alcocer M J P, Leijtens T, Herz L M, Petrozza A and Snaith H J 2013 Science 342 341
[18]	Zhang F, Shi Z, Ma Z, Li Y, Li S, Wu D, Xu T, Li X, Shan C and Du G 2018 Nanoscale 10 20131
[19]	Jiang M, Deng N H, Wang L, Xie H M and Qiu Y Q 2018 Chin. Phys. B 27 067102
[20]	Huang H M, Jiang Z Y and Luo S J 2017 Chin. Phys. B 26 096301
[21]	Zhang Y Y, Chen S Y, Xu P, Xiang H J, Gong X G, Walsh A and Wei S H 2018 Chin. Phys. Lett. 35 036104
[22]	Kwak D H, Lim D H, Ra H S, Ramasamy P and Lee J S 2016 RSC Adv. 6 65252
[23]	Echtermeyer T, Britnell L, Jasnos P, Lombardo A, Gorbachev R, Grigorenko A, Geim A, Ferrari A and Novoselov K 2011 Nat. Commun. 2 458
[24]	Liu Y, Cheng R, Liao L, Zhou H, Bai J, Liu G, Liu L, Huang Y and Duan X 2011 Nat. Commun. 2 579
[25]	Furchi M, Urich A, Pospischil A, Lilley G, Unterrainer K, Detz H, Klang P, Andrews A M, Schrenk W and Strasser G 2012 Nano Lett. 12 2773
[26]	Protesescu L, Yakunin S, Bodnarchuk M I, Krieg F, Caputo R, Hendon C H, Tang R X, Walsh A and Kovalenko M V 2015 Nano Lett. 15 3692
[27]	Song J Z, Li J, Li X M, Xu L, Dong Y and iB H 2015 Adv. Mater. 27 7162
[28]	Shi Z F, Li Y, Li S, Li X J, Wu D, Xu T T, Tian Y T, Chen Y S, Zhang Y T, Zhang B L, Shan C X and Du G T 2018 Adv. Funct. Mater. 28 1707031
[29]	Dong Y H, Zou Y S, Song J Z, Song X F and Zeng H B 2017 J. Mater. Chem. C 5 11369
[30]	Wang X G, Li M M, Zhang B, Wang H, Zhao Y and Wang B H 2018 Organic Electron. 52 172
[31]	Wang H and Kim D H 2017 Chem. Soc. Rev. 46 5204
[32]	Wang P H, Gong C H, Rao G F, Hu K, Wang X P, Yan C Y, Dai L P, Wu C Y and Xiong J 2018 Adv. Opt. Mater. 6 1701302
[33]	Li S G, Zhang C, Song J J, Xie X H, Meng J Q and Xu S J 2018 Crystals 8 220
[34]	Ahmadi M, Wu T and Hu B 2017 Adv. Mater. 29 1605242
[35]	Chen S and Shi G Q 2017 Adv. Mater. 29 1605448
[36]	Huo C X, Cai B, Yuan Z, Ma B W and Zeng H B 2017 Small 1 1600018
[37]	Lai M L, Tay T Y S, Sadhanala A, Dutton S E, Li G, Friend R H and Tan Z K 2016 J. Phys. Chem. Lett. 7 2653
[38]	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 and Du G T 2018 ACS Nano 12 1462
[39]	Zhang D D, Yang Y M, Bekenstein Y, Yu Y, Gibson N A, Wong A B, Eaton S W, Kornienko N, Kong Q, Lai M, Alivisatos A P, Leone S R and Yang P D 2016 J. Am. Chem. Soc. 138 7236
[40]	Jeon N J, Noh J H, Kim Y C, Yang W S, Ryu S and Seok S 2014 Nat. Mater. 13 897
[41]	Li Y, Shi Z F, Li S, Lei L Z, Ji H F, Wu D, Xu T T, Tian Y T and Li X J 2017 J. Mater. Chem. C 5 8355
[42]	Liu H, Zhang X W, Zhang L Q, Yin Z G, Wang D G, Meng J H, Jiang Q, Wang Y and You J B 2017 J. Mater. Chem. C 5 6115
[43]	Tong X W, Kong W Y, Wang Y Y, Zhu J M, Luo L B and Wang Z H 2017 ACS Appl. Mater. Interfaces 9 18977
[44]	Liu D, Hu Z, Hu W, Wang Y P, Yu K, Wen M, Zu Z, Liu J, Wang M, Chen W, Zhou M, Tang X and Zang Z 2017 Mater. Lett. 186 243
[45]	Zhang J R, Wang Q, Zhang X S, Jiang J X, Gao Z F, Jin Z W and Liu S Z 2017 RSC Adv. 7 36722
[46]	Liu X H, Yu D J, Cao F, Li X M, Ji J P, Chen J, Song X F and Zeng H B 2017 Small 13 1700364
[47]	Saidaminov M I, Haque M A, Almutlaq J, Sarmah S, Miao X H, Begum R, Zhumekenov A A, Dursun I, Cho N, Murali B, Mohammed O F, Wu T and Bakr O M 2017 Adv. Opt. Mater. 5 1600704
[48]	Chen Q, Zhou H, Hong Z, Luo S, Duan H S, Wang H H, Liu Y, Li G and Yang Y 2014 J. Am. Chem. Soc. 136 622
[49]	Wang Z W, Xu H T, Cai J, Zhu J B, Ni C W, Hong F, Fang Z B, Xu F Z, Cui S W, Xu R, Wang L J, Xu F and Huang J 2016 Opt. Express 24 8411
[50]	Chen Q, Zhou H, Song T B, Luo S, Hong Z, Duan H S, Dou L, Liu Y and Yang Y 2014 Nano Lett. 14 4158
[51]	Ying C, Shi C W, Wu N, Zhang J C and Wang M 2015 Nanoscale 7 12092
[52]	Li Y B, Cooper J K, Buonsanti R, Giannini C, Liu Y, Toma F M and Sharp L D 2015 J. Phys. Chem. Lett. 6 493
[53]	Sheng R, Ho-Baillie A, Huang S J, Chen S, Wen X M, Hao X J and Green M A 2015 J. Phys. Chem. C 119 3545
[54]	Zhou H, Chen Q and Yang Y 2015 MRS Bull. 40 667
[55]	Chen J, Fu Y P, Samad L, Dang L, Zhao Y Z, Shen S H, Guo L J and Jin S 2017 Nano Lett. 17 460
[56]	Zhang Q, Su R, Liu X, Xing J, Sum T C and Xiong Q H 2016 Adv. Funct. Mater. 26 6238
[57]	Li H L, Wang X, Zhu X L, Duan X F and Pan A L 2018 Chem. Soc. Rev. 47 7504
[58]	Zhou H, Yuan S P, Wang X X, Xu T, Wang X, Li H L, Zheng W H, Fan P, Li Y Y, Sun L T and Pan A L 2017 ACS Nano 11 1189
[59]	Liu M, Johnston M B and Snaith H J 2013 Nature 501 395
[60]	Malinkiewicz O, Yella A, Lee Y H, Espallargas G M, Graetzel M, Nazeeruddin M K and Bolink H J 2014 Nat. Photon. 8 128
[61]	Gao C, Liu J, Liao C, Ye Q Y, Zhang Y S, He X L, Guo X W, Mei J and Lau W 2015 RSC Adv. 5 26175
[62]	Wang S H, Ono L K, Leyden M R, Kato Y C, Raga S R, Lee M V and Qi Y B 2015 J. Mater. Chem. A 3 14631
[63]	Zhao D W, Ke W J, Grice R C, Cimaroli A J, Tan X X, Yang M J, Collins R W, Zhang H M, Zhu K and Yan Y F 2016 Nano Energy 19 88
[64]	Luo P F, Liu Z F, Xia W, Yuan C C, Cheng J G and Lu Y W 2015 J. Mater. Chem. A 3 12443
[65]	Peng Y K, Jing G S and Cui T H 2015 RSC Adv. 5 95847
[66]	Chen C W, Kang H W, Hsiao S Y, Yang P F, Chiang K M and Lin H W 2014 Adv. Mater. 26 6647
[67]	Dong Y H, Gu Y, Zou Y S, Song J Z, Xu L M, Li J H, Xue J, Li X M and Zeng H B 2016 Small 12 5622
[68]	Tang X S, Zu Z Q, Shao H B, Hu W, Zhou M, Deng M, Chen W W, Zang Z G, Zhu T and Xue J M 2016 Nanoscale 8 15158
[69]	Li Y, Shi Z F, Lei L Z, Ma Z Z, Zhang F, Li S, Wu D, Xu T T, Li X J, Shan C X and Du G T 2018 ACS Photon. 5 2524
[70]	Cha J H, Han J H, Yin W P, Park C, Park Y, Ahn T K, Cho J H and Jung D Y 2017 J. Phys. Chem. Lett. 8 565
[71]	Song J Z, Xu L M, Li J H, Xue J, Dong Y H, Li X M and Zeng H B 2016 Adv. Mater. 28 4861
[72]	Yang B, Zhang F Y, Chen J S, Yang S Q, Xia X S, Pullerits T, Deng W Q and Han K L 2017 Adv. Mater. 29 1703758
[73]	Pang L Q, Yao Y, Wang Q, Zhang X S, Jin Z W and Liu S Z 2018 Part. Part. Syst. Charact. 35 1700363
[74]	Liang J, Wang C X, Wang Y R, Xu Z R, Lu Z P, Ma Y, Zhu H F, Hu Y, Xiao C C, Yi X, Zhu G Y, Ma H L, Chen T, Tie Z X, Jin Z and Liu J 2016 J. Am. Chem. Soc. 138 15829
[75]	Lv L F, Xu Y B, Fang H H, Luo W J, Xu F J, Liu L M, Wang B W, Zhang X F, Yang D, Hu W D and Dong A G 2016 Nanoscale 8 13589
[76]	Tong G Q, Li H, Li D T, Zhu Z F, Xu E Z, Li G P, Yu L W, Xu J and Jiang Y 2018 Small 14 1702523
[77]	Bao C X, Yang J, Bai S, Xu W D, Yan Z B, Xu Q Y, Liu J M, Zhang W J and Gao F 2018 Adv. Mater. 30 1803422 [RefAutoNo]
[78]	Lu J W, Sheng X X, Tong G Q, Yu Z W, Sun X L, Yu L W, Xu X X, Wang J Z, Xu J, Shi Y and Chen K J 2017 Adv. Mater. 29 1700400
[79]	Zhou H, Zeng J P, Song Z N, Grice, C R, Chen C, Song Z H, Zhao D W, Wang H and Yan Y F 2018 J. Phys. Chem. Lett. 9 2043
[80]	Song Z B, Zhou H, Gui P B, Yang X H, Liu R H, Ma G K, Wang H and Fang G J 2018 J. Mater. Chem. C 6 5113
[81]	Jellicoe T C, Richter J M, Glass H F J, Tabachnyk M, Brady R, Dutton S E, Rao A, Friend R H, Credgington D, Greenham N C and Boehm M L 2016 J. Am. Chem. Soc. 138 2941
[82]	Wang A F, Guo Y Y, Muhammad F and Deng Z T 2017 Chem. Mater. 29 6493
[83]	Wang A, Yan X, Zhang M, Sun S, Yang M, Shen W, Pan X, Wang P and Deng Z 2016 Chem. Mater. 28 8132
[84]	Zhou C K, Tian Y, Yuan Z, Lin H R, Chen B H, Clark R, Dilbeck T, Zhou Y, Hurley J, Neu J, Besara T, Siegrist T, Djurovich P and Ma B W 2017 ACS Appl. Mater. Interfaces 9 44579
[85]	Hong W L, Huang Y C, Chang C Y, Zhang Z C, Tsai H R, Chang N Y and Chao Y C 2016 Adv. Mater. 28 8029
[86]	Xing G C, Kumar M H, Chong W K, Liu X F, Cai Y, Ding H, Asta M, Grätzel M, Mhaisalkar S, Mathews N and Sum T C 2016 Adv. Mater. 28 8191
[87]	Xu P, Chen S Y, Xiang H J, Gong X G and Wei S H 2014 Chem. Mater. 26 6068
[88]	Dolzhnikov D S, Wang C, Xu Y D, Kanatzidis M G and Weiss E A 2017 Chem. Mater. 29 7901
[89]	Jiang Y N, Zhang H L, Qiu X F and Cao B Q 2017 Mater. Lett. 199 50
[90]	Wong A B, Bekenstein Y, Kang J, Kley C S, Kim D, Gibson N A, Zhang D D, Yu Y, Leone S R, Wang L W, Alivisatos A P and Yang P D 2018 Nano Lett. 18 2060
[91]	Zhang J, Yang Y, Deng H, Farooq U, Yang X K, Khan J, Tang J and Song H S 2017 ACS Nano 11 9294
[92]	Singh A, Boopathi K M, Mohapatra A, Chen Y F, Li G and Chu C W 2018 ACS Appl. Mater. Interfaces 10 2566
[93]	Pal J, Manna S, Mondal A, Adarsh S D K V and Nag A 2017 Angew. Chem. Int. Ed. 56 14187
[94]	Saparov B, Hong F, Sun J P, Duan H S, Meng W W, Cameron S, Hill I G, Yan Y F and Mitzi D B 2015 Chem. Mater. 27 5622
[95]	Pradhan B, Kumar G S, Sain S, Dalui A, Ghorai U K, Pradhan S K and Acharya S 2018 Chem. Mater. 30 2135
[96]	Leng M Y, Yang Y, Zeng K, Chen Z W, Tan Z F, Li S R, Li J H, Xu B, Li D B, Hautzinger M P, Fu Y P, Zhai T Y, Xu L, Niu G D, Jin S and Tang J 2018 Adv. Funct. Mater. 28 1704446
[97]	Park B W, Philippe B, Zhang X L, Rensmo H, Boschloo G and Johansson E M J 2015 Adv. Mater. 27 6806
[98]	Yang B, Chen J S, Hong F, Mao X, Zheng K B, Yang S Q, Li Y J, Pullerits T, Deng W Q and Han K L 2017 Angew. Chem. Int. Ed. 56 12471
[99]	Lehner A J, Fabini D H, Evans H A, Hebert C A, Smock S R, Hu J, Wang H B, Zwanziger J W, Chabinyc M L and Seshadri R 2015 Chem. Mater. 27 7137
[100]	Johansson M B, Zhu H M and Johansson M J 2016 J. Phys. Chem. Lett. 7 3467
[101]	Zhang Y H, Yin J, Parida M R, Ahmed G H, Pan J, Bakr O M, Bredas J L and Mohammed O F 2017 J. Phys. Chem. Lett. 8 3173
[102]	Wu C C, Zhang Q H, Liu Y, Luo W, Guo X, Huang Z, Ting H, Sun W H, Zhong X R, Wei S Y, Wang S F, Chen Z J and Xiao L X 2018 Adv. Sci. 5 1700759
[103]	Slavney A H, Hu T, Lindenberg A M and Karunadasa H I 2016 J. Am. Chem. Soc. 138 2138
[104]	McClure E T, Ball M R, Windl W and Woodward P M 2016 Chem. Mater. 28 1348
[105]	Lei L Z, Shi Z F, Li Y, Ma Z Z, Zhang F, Xu T T, Tian Y T, Wu D, Li X J and Du G T 2018 J. Mater. Chem. C 6 7982
[106]	Wu C C, Du B W, Luo W, Liu Y, Li T Y, Wang D, Guo X, Ting H, Fang Z Y, Wang S F, Chen Z J, Chen Y X and Xiao L X 2018 Adv. Opt. Mater. 6 1800811
[107]	Wang P, Liu S S, Luo W J, Fang H H, Gong F, Guo N, Chen Z G, Zou J, Huang Y, Zhou X H, Wang J L, Chen X S, Lu W, Xiu F X and Hu W D 2017 Adv. Mater. 29 1604439
[108]	Li X M, Yu D J, Cao F, Gu Y, Wei Y, Wu Y, Song J Z and Zeng H B 2016 Adv. Funct. Mater. 26 5903
[109]	Cao F, Yu D J, Li X M, Zhu Y, Sun Z G, Shen Y L, Wu Y, Wei Y and Zeng H B 2017 J. Mater. Chem. C 5 7441
[110]	Ramasamy P, Lim D H, Kim B, Lee S H, Lee M S and Lee J S 2016 Chem. Commun. 52 2067
[111]	Waleed A, Tavakoli M M, Gu L L, Hussain S, Zhang D Q, Poddar S, Wang Z Y, Zhang R J and Fan Z Y 2017 Nano Lett. 17 4951
[112]	Song J Z, Cui Q Z, Li J H, Xu J Y, Yang Y, Xu L M, Dong Y H, Tian T, Sun H D and Zeng H B 2017 Adv. Opt. Mater. 5 1700157
[113]	Li X M, Yu D J, Chen J, Wang Y, Cao F, Wei Y, Wu Y, Wang L, Zhu Y, Sun Z G, Ji J P, Shen Y L, Sun H D and Zeng H B 2017 ACS Nano 11 2015
[114]	Li C L, Han C, Zhang Y B, Zang Z G, Wang M and Tang X S 2017 Sol. Energ. Mat. Sol. C. 172 341
[115]	Zhang X S, Wang Q, Jin Z W, Zhang J R and Liu S Z 2017 Nanoscale 9 6278
[116]	Song X F, Liu X H, Yu D J, Huo C X, Ji J P, Li X M, Zhang S L, Zou Y S, Zhu G Y, Wang Y J, Wu M Z, Xie A and Zeng H B 2018 ACS Appl. Mater. Interfaces 10 2801

[1]	High-performance extended short-wavelength infrared PBn photodetectors based on InAs/GaSb/AlSb superlattices Junkai Jiang(蒋俊锴), Faran Chang(常发冉), Wenguang Zhou(周文广), Nong Li(李农), Weiqiang Chen(陈伟强), Dongwei Jiang(蒋洞微), Hongyue Hao(郝宏玥), Guowei Wang(王国伟), Donghai Wu(吴东海), Yingqiang Xu(徐应强), and Zhi-Chuan Niu(牛智川). Chin. Phys. B, 2023, 32(3): 038503.
[2]	Dramatic reduction in dark current of β-Ga₂O₃ ultraviolet photodectors via β-(Al_0.25Ga_0.75)₂O₃ surface passivation Jian-Ying Yue(岳建英), Xue-Qiang Ji(季学强), Shan Li(李山), Xiao-Hui Qi(岐晓辉), Pei-Gang Li(李培刚), Zhen-Ping Wu(吴真平), and Wei-Hua Tang(唐为华). Chin. Phys. B, 2023, 32(1): 016701.
[3]	Evaluation of performance of machine learning methods in mining structure—property data of halide perovskite materials Ruoting Zhao(赵若廷), Bangyu Xing(邢邦昱), Huimin Mu(穆慧敏), Yuhao Fu(付钰豪), and Lijun Zhang(张立军). Chin. Phys. B, 2022, 31(5): 056302.
[4]	Insights into the adsorption of water and oxygen on the cubic CsPbBr₃ surfaces: A first-principles study Xin Zhang(张鑫), Ruge Quhe(屈贺如歌), and Ming Lei(雷鸣). Chin. Phys. B, 2022, 31(4): 046401.
[5]	High-throughput computational material screening of the cycloalkane-based two-dimensional Dion—Jacobson halide perovskites for optoelectronics Guoqi Zhao(赵国琪), Jiahao Xie(颉家豪), Kun Zhou(周琨), Bangyu Xing(邢邦昱), Xinjiang Wang(王新江), Fuyu Tian(田伏钰), Xin He(贺欣), and Lijun Zhang(张立军). Chin. Phys. B, 2022, 31(3): 037104.
[6]	Reveal the large open-circuit voltage deficit of all-inorganicCsPbIBr₂ perovskite solar cells Ying Hu(胡颖), Jiaping Wang(王家平), Peng Zhao(赵鹏), Zhenhua Lin(林珍华), Siyu Zhang(张思玉), Jie Su(苏杰), Miao Zhang(张苗), Jincheng Zhang(张进成), Jingjing Chang(常晶晶), and Yue Hao(郝跃). Chin. Phys. B, 2022, 31(3): 038804.
[7]	Stability, electronic structure, and optical properties of lead-free perovskite monolayer Cs₃B₂X₉ (B=Sb, Bi; X=Cl, Br, I) and bilayer vertical heterostructure Cs₃B₂X₉/Cs₃B₂'X₉ (B,B'=Sb, Bi; X=Cl, Br, I) Yaowen Long(龙耀文), Hong Zhang(张红), and Xinlu Cheng(程新路). Chin. Phys. B, 2022, 31(2): 027102.
[8]	A silazane additive for CsPbI₂Br perovskite solar cells Ruiqi Cao(曹瑞琪), Yaochang Yue(乐耀昌), Hong Zhang(张弘), Qian Cheng(程倩), Boxin Wang(王博欣), Shilin Li(李世麟), Yuan Zhang(张渊), Shuhong Li(李书宏), and Huiqiong Zhou(周惠琼). Chin. Phys. B, 2022, 31(11): 110101.
[9]	Could two-dimensional perovskites fundamentally solve the instability of perovskite photovoltaics Luoran Chen(陈烙然), Hu Wang(王虎), and Yuchuan Shao(邵宇川). Chin. Phys. B, 2022, 31(11): 117803.
[10]	Stability and optoelectronic property of low-dimensional organic tin bromide perovskites J H Lei(雷军辉), Q Tang(汤琼), J He(何军), and M Q Cai(蔡孟秋). Chin. Phys. B, 2021, 30(3): 038102.
[11]	Suppression of ion migration in perovskite materials by pulse-voltage method Xue-Yan Wang(王雪岩), Hu Wang(王虎), Luo-Ran Chen(陈烙然), Yu-Chuan Shao(邵宇川), and Jian-Da Shao(邵建达). Chin. Phys. B, 2021, 30(11): 118104.
[12]	Stability and optoelectronic property of lead-free halide double perovskite Cs₂B'BiI₆ (B' = Li, Na and K) Yunhui Liu(刘云辉), Wei Wang(王威), Feng Xiao(肖峰), Liangbin Xiong(熊良斌), and Xing Ming(明星). Chin. Phys. B, 2021, 30(10): 108102.
[13]	Ultraviolet irradiation dosimeter based on persistent photoconductivity effect of ZnO Chao-Jun Wang(王朝骏), Xun Yang(杨珣), Jin-Hao Zang(臧金浩), Yan-Cheng Chen(陈彦成), Chao-Nan Lin(林超男), Zhong-Xia Liu(刘忠侠), Chong-Xin Shan(单崇新). Chin. Phys. B, 2020, 29(5): 058504.
[14]	A simple rule for finding Dirac cones in bilayered perovskites Xuejiao Chen(陈雪娇), Lei Liu(刘雷), Dezhen Shen(申德振). Chin. Phys. B, 2019, 28(7): 077106.
[15]	High-performance waveguide-integrated Ge/Si avalanche photodetector with small contact angle between selectively epitaxial growth Ge and Si layers Xiao-Qian Du(杜小倩), Chong Li(李冲), Ben Li(黎奔), Nan Wang(王楠), Yue Zhao(赵越), Fan Yang(杨帆), Kai Yu(余凯), Lin Zhou(周琳), Xiu-Li Li(李秀丽), Bu-Wen Cheng(成步文), Chun-Lai Xue(薛春来). Chin. Phys. B, 2019, 28(6): 064208.

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Metrics
Related Articles

Photodetectors based on inorganic halide perovskites: Materials and devices

Cite this article:

Online attention