Researching

Journals
  • Advanced Photonics
  • Photonics Insights
  • Advanced Photonics Nexus
  • Photonics Research
  • Advanced Imaging
  • View All Journals
  • Chinese Optics Letters
  • High Power Laser Science and Engineering
    • Articles
  • Optics
  • Physics
  • Geography
  • View All Subjects
    • Conferences
  • CIOP
  • HPLSE
  • AP
  • View All Events
    • News
    About CLP
    Search by keywords or author
    Journals >Acta Physica Sinica >Volume 69 >Issue 13 >Page 138401-1 > Article
    • Acta Physica Sinica
    • Vol. 69, Issue 13, 138401-1 (2020)
    Progress in perovskite solar cells based on different buffer layer materials
    Yong-Liang Chen1,2, Ya-Wen Tang1,3, Pei-Run Chen1,2, Li Zhang1,2..., Qi Liu3, Ying Zhao1,2, Qian Huang1,2,* and Xiao-Dan Zhang1,2|Show fewer author(s)
    Author Affiliations
  • 1Institute of Photo-Electronics Thin Film Devices and Technique, Nankai University, Tianjin 300071, China
  • 2Key Laboratory of Photo-Electronics Thin Film Devices and Technique of Tianjin, Tianjin 300071, China
  • 3Anhui Polytechnic University, Wuhu 241000, China
    • show less
    DOI: 10.7498/aps.69.20200543 Cite this Article
    Yong-Liang Chen, Ya-Wen Tang, Pei-Run Chen, Li Zhang, Qi Liu, Ying Zhao, Qian Huang, Xiao-Dan Zhang. Progress in perovskite solar cells based on different buffer layer materials[J]. Acta Physica Sinica, 2020, 69(13): 138401-1 Copy Citation Text show less
    References

    [1] Snaith H J[J]. J. Phys. Chem. Lett., 4, 3623(2013).

    [2] Green M A, Ho-Baillie A, Snaith H J[J]. Nat. Photonics, 8, 506(2014).

    [3] Stranks S D, Snaith H J[J]. Nat. Nanotechnol., 10, 391(2015).

    [4] Yang W S, Noh J H, Jeon N J, Kim Y C, Ryu S, Seo J, SeoK S I[J]. Science, 348, 1234(2015).

    [5] Ponseca C S, Savenije T J, Abdellah M, Zheng K B, Yartsev A, Pascher T, Harlang T, Chabera P, Pullerits T, Stepanov A, Wolf J P, Sundstrom V[J]. J. Am. Chem. Soc., 136, 5189(2014).

    [6] Stranks S D, Eperon G E, Grancini G, Menelaou C, Alcocer M J P, Leijtens T, Herz L M, Petrozza A, Snaith H J[J]. Science, 342, 341(2013).

    [7] Brenes R, Guo D Y, Osherov A, Noel N K, Eames C, Hutter E M, Pathak S K, Niroui F, Friend R H, Islam M S, Snaith H J, Bulovic V, Savenije T J, Stranks S D[J]. Joule, 1, 155(2017).

    [8] Kojima A, Teshima K, Shirai Y, Miyasaka T[J]. J. Am. Chem. Soc., 131, 6050(2009).

    [9] [J]. Best research-cell efficiencies. http://www.nrel.gov/pv/assets/images/efficiencychart.png

    [10] Qiu J H, Yang S H[J]. Chem. Rec., 20, 209(2019).

    [11] Wang B, Iocozzia J, Zhang M, Ye M D, Yan S C, Jin H L, Wang S, Zou Z G, Lin Z Q[J]. Chem. Soc. Rev., 48, 4854(2019).

    [12] Leijtens T, Eperon G E, Noel N K, Habisreutinger S N, Petrozza A, Snaith H J[J]. Adv. Energy Mater., 5, 1500963(2015).

    [13] Chen Y J, Li M H, Chen P[J]. Sci. Rep., 8, 7646(2018).

    [14] C ai, C , Zhou K, Guo H Y, Pei Y, Hu Z Y, Zhang J, Zhu Y J[J]. Electrochim. Acta, 312, 100(2019).

    [15] Xiao D, Li X, Wang D M, Li Q, Shen K, Wang D L[J]. Sol. Energ. Mat. Sol. C., 169, 61(2017).

    [16] Bush K A, Bailie C D, Chen Y, Bowring A R, Wang W, Ma W, Leijtens T, Moghadam F, McGehee M D[J]. Adv. Mater., 28, 3937(2016).

    [17] Jin T Y, Li W, Li Y Q, Luo Y X, Shen Y, Cheng L P, Tang J X[J]. Adv. Opt. Mater., 6, 1801153(2018).

    [18] Nouri E, Wang Y L, Chen Q, Xu J J, Paterakis G, Dracopoulos V, Xu Z X, Tasis D, Mohammadi M R, Lianos P[J]. Electrochim. Acta, 233, 36(2017).

    [19] Galatopoulos F, Papadas I T, Armatas , G S, Choulis S A[J]. Adv. Mater. Interfaces, 5, 1800280(2018).

    [20] Li Y Q, Qi X, Liu G H, Zhang Y Q, Zhu N, Zhang Q H, Guo X, Wang D, Hu H Z, Chen Z J[J]. Org. Electron., 65, 19(2019).

    [21] Albrecht S, Saliba M, Baena J P C, Lang F, Kegelmann L, Mews M, Steier L, Abate A, Rappich J, Korte L, Schlatmann R, Nazeeruddin M K, Hagfeldt A, Gratzel M, Rech B[J]. Energ Environ. Sci., 9, 81(2016).

    [22] Nejand B A, Ahmadi V, Gharibzadeh S, Shahverdi H R[J]. ChemSusChem, 9, 302(2016).

    [23] Chatterjee S, Pal A J[J]. J. Phys. Chem. C, 120, 1428(2016).

    [24] Yu W L, Li F, Wang H, Alarousu E, Chen Y, Lin B, Wang L F, Hedhili M N, Li Y Y, Wu K W, Wang X B, Mohammed O F, Wu T[J]. Nanoscale, 8, 6173(2016).

    [25] Kim J H, Liang P W, Williams S T, Cho N, Chueh C C, Glaz M S, Ginger D S, Jen A K Y[J]. Adv. Mater., 27, 695(2015).

    [26] L in, W K, Su S H, Yeh M C, Chen C Y, Yokoyama M[J]. Vacuum, 140, 82(2017).

    [27] Shi J J, Luo Y H, Wei H Y, Luo J H, Dong J, Lv S T, Xiao J Y, Xu Y Z, Zhu L F, Xu X, Wu H J, Li D M, Meng Q B[J]. ACS Appl. Mater. Interfaces, 6, 9711(2014).

    [28] Matteocci , F , Busby Y, Pireaux J J, Divitini G, Cacovich S, Ducati C, Di Carlo A[J]. ACS Appl. Mater. Interfaces, 7, 26176(2015).

    [29] Domanski K, Correa-Baena J P, Mine N, Nazeeruddin M K, Abate A, Saliba M, Tress W, Hagfeldt A, Gratzel M[J]. ACS Nano, 10, 6306(2016).

    [30] Cacovich S, Cina L, Matteocci F, Divitini G, Midgley P A, Di Carlo A, Ducati C[J]. Nanoscale, 9, 4700(2017).

    [31] Zhang X W, Liang C J, Sun M J, Zhang H M, Ji C, Guo Z B, Xu Y J, Sun F L, Song Q, He Z Q[J]. Phys. Chem. Chem. Phys., 20, 7395(2018).

    [32] Lee M, Ko Y, Min B K, Jun Y[J]. ChemSusChem, 9, 31(2016).

    [33] Wang F J, Endo M, Mouri S, Miyauchi Y, Ohno Y, Wakamiya A, Murata Y, Matsuda K[J]. Nanoscale, 8, 11882(2016).

    [34] Ghani F, Kristen J, Riegler H[J]. J. Chem. Eng. Data, 57, 439(2012).

    [35] Li W Z, Dong H P, Wang L D, Li N, Guo X D, Li J W, Qiu Y[J]. J. Mater. Chem. A, 2, 13587(2014).

    [36] Najafi L, Taheri B, Martin-Garcia B, Bellani S, Di Girolamo D, Agresti A, Oropesa-Nunez R, Pescetelli S, Vesce L, Calabro E, Prato M, Castillo A E D, Di Carlo A, Bonaccorso F[J]. ACS Nano, 12, 10736(2018).

    [37] Fang Z M, Liu L, Zhang Z M, Yang S F, Liu F Y, Liu M Z, Ding L M[J]. Sci. Bull., 64, 507(2019).

    [38] Zeng Q, Liu L, Xiao Z, Liu F Y, Hua Y, Yuan Y B, Ding L M[J]. Sci. Bull., 64, 885(2019).

    [39] Jia X, Zuo C T, Tao S X, Sun K, Zhao Y X, Yang S F, Cheng M, Wang M K, Yuan Y B, Yang J L, Gao F, Xing G C, Wei Z H, Zhang L J, Yip H L, Liu M Z, Shen Q, Yin L W, Han L Y, Liu S Z, Wang L Z, Luo J S, Tan H R, Jin Z W, Ding L M[J]. Sci. Bull., 64, 1532(2019).

    [40] Han Q L, Wei Y, Lin R X, Fang Z M, Xiao K, Luo X, Gu S, Zhu J, Ding L M, Tan H R[J]. Sci. Bull., 64, 1399(2019).

    [41] Fedros G, Ioannis T P, Gerasimos S A, Stelion A C[J]. Advanced Materials Interfaces, 5, 1800280(2018).

    [42] Zuo L J, Gu Z W, Ye T, Fu W F, Wu G, Li H Y, Chen H Z[J]. J. Am. Chem. Soc., 137, 2674(2015).

    [43] Azmi R, Lee C L, Jung I H, Jang S Y[J]. Adv. Energy Mater., 8, 1702934(2018).

    [44] Azmi R, Hadmojo W T, Sinaga S, Lee C L, Yoon S C, Jung I H, Jang S Y[J]. Adv. Energy Mater., 8, 1701683(2018).

    [45] Liu X Y, Yang X D, Liu X S, Zhao Y N, Chen J Y, Gu Y Z[J]. Appl. Phys. Lett., 113, 203903(2018).

    Abstract
    Get PDF(in Chinese)
    Figures&Tables (14)
    Equations (0)
    References (45)
    Get Citation
    Copy Citation Text
    Yong-Liang Chen, Ya-Wen Tang, Pei-Run Chen, Li Zhang, Qi Liu, Ying Zhao, Qian Huang, Xiao-Dan Zhang. Progress in perovskite solar cells based on different buffer layer materials[J]. Acta Physica Sinica, 2020, 69(13): 138401-1
    Download Citation
    Tools
    Share
    Save the article for my favorites
    Paper Information
    Recommended Topics
    Nuclear physics
    Particles and fields
    Particle and nuclear astrophysics and cosmology