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@ARTICLE{Li:890109,
      author       = {Li, Meng and Zuo, Wei‐Wei and Ricciardulli, Antonio
                      Gaetano and Yang, Ying‐Guo and Liu, Yan‐Hua and Wang,
                      Qiong and Wang, Kai‐Li and Li, Gui‐Xiang and Saliba,
                      Michael and Di Girolamo, Diego and Abate, Antonio and Wang,
                      Zhao‐Kui},
      title        = {{E}mbedded {N}ickel‐{M}esh {T}ransparent {E}lectrodes for
                      {H}ighly {E}fficient and {M}echanically {S}table {F}lexible
                      {P}erovskite {P}hotovoltaics: {T}oward a {P}ortable {M}obile
                      {E}nergy {S}ource},
      journal      = {Advanced materials},
      volume       = {32},
      number       = {38},
      issn         = {1521-4095},
      address      = {Weinheim},
      publisher    = {Wiley-VCH},
      reportid     = {FZJ-2021-00698},
      pages        = {2003422 -},
      year         = {2020},
      abstract     = {The rapid development of Internet of Things mobile
                      terminals has accelerated the market's demand for portable
                      mobile power supplies and flexible wearable devices. Here,
                      an embedded metal‐mesh transparent conductive electrode
                      (TCE) is prepared on poly(ethylene terephthalate) (PET)
                      using a novel selective electrodeposition process combined
                      with inverted film‐processing methods. This embedded
                      nickel (Ni)‐mesh flexible TCE shows excellent
                      photoelectric performance (sheet resistance of ≈0.2–0.5
                      Ω sq−1 at high transmittance of $≈85–87\%)$ and
                      mechanical durability. The PET/Ni‐mesh/polymer
                      poly(3,4‐ethylenedioxythiophene):poly(styrenesulfonate)
                      (PEDOT:PSS PH1000) hybrid electrode is used as a transparent
                      electrode for perovskite solar cells (PSCs), which exhibit
                      excellent electric properties and remarkable environmental
                      and mechanical stability. A power conversion efficiency of
                      $17.3\%$ is obtained, which is the highest efficiency for a
                      PSC based on flexible transparent metal electrodes to date.
                      For perovskite crystals that require harsh growth
                      conditions, their mechanical stability and environmental
                      stability on flexible transparent embedded metal substrates
                      are studied and improved. The resulting flexible device
                      retains $76\%$ of the original efficiency after 2000 bending
                      cycles. The results of this work provide a step improvement
                      in flexible PSCs.},
      cin          = {IEK-5},
      ddc          = {660},
      cid          = {I:(DE-Juel1)IEK-5-20101013},
      pnm          = {121 - Solar cells of the next generation (POF3-121) /
                      Helmholtz Young Investigators Group (Helmholtz Young
                      Investigators Group: Key Technologies)},
      pid          = {G:(DE-HGF)POF3-121 / Helmholtz Young Investigators Group:
                      Key Technologies},
      typ          = {PUB:(DE-HGF)16},
      pubmed       = {33480464},
      UT           = {WOS:000563870200001},
      doi          = {10.1002/adma.202003422},
      url          = {https://juser.fz-juelich.de/record/890109},
}