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@ARTICLE{Shcherbachenko:1023520,
      author       = {Shcherbachenko, Sergey and Astakhov, Oleksandr and Liu,
                      Zhifa and Kin, Li-Chung and Zahren, Christoph and Rau, Uwe
                      and Kirchartz, Thomas and Merdzhanova, Tsvetelina},
      title        = {{H}igh‐{B}andgap {P}erovskites for {E}fficient {I}ndoor
                      {L}ight {H}arvesting},
      journal      = {Advanced energy $\&$ sustainability research},
      volume       = {5},
      number       = {5},
      issn         = {2699-9412},
      address      = {Weinheim},
      publisher    = {Wiley-VCH},
      reportid     = {FZJ-2024-01731},
      pages        = {2400032},
      year         = {2024},
      abstract     = {The use of metal-halide perovskites in photovoltaic
                      applications has become increasingly attractive due to their
                      low-temperature manufacturing processes and long
                      charge-carrier lifetimes. High-bandgap perovskite solar
                      cells have potential for indoor applications due to their
                      efficient absorption of the spectrum of light-emitting
                      diodes (LEDs). This study investigates the performance of
                      high-bandgap perovskite solar cells under a wide range of
                      lighting conditions, including a commercially available
                      white LED lamp with a 5–40 000 lx illuminance range
                      and a standard 1 sun reference. The performance of
                      CH3NH3PbI3-based perovskite solar cells to
                      CH3NH3Pb(I0.8,Br0.2)3 solar cells with varying electron
                      transport layers (ETL), including PCBM, PCBM:CMC, and
                      CMC:ICBA fullerene combinations, is compared. Because the
                      spectral response of perovskite solar cells covers the white
                      LED spectrum very well, the major performance difference is
                      related to the open-circuit voltage and fill factor. The
                      cells with the CH3NH3Pb(I0.8,Br0.2)3 absorber layer and the
                      CMC:ICBA ETL demonstrate superior open-circuit voltage and
                      therefore a high efficiency above $29\%$ at 200–500 lx,
                      typical for indoor lighting.},
      cin          = {IEK-5},
      ddc          = {333.7},
      cid          = {I:(DE-Juel1)IEK-5-20101013},
      pnm          = {1213 - Cell Design and Development (POF4-121) / SUPERVAL -
                      SUstainable Photo-ElectRochemical VALorization of flue gases
                      (101115456)},
      pid          = {G:(DE-HGF)POF4-1213 / G:(EU-Grant)101115456},
      typ          = {PUB:(DE-HGF)16},
      UT           = {WOS:001159746500001},
      doi          = {10.1002/aesr.202400032},
      url          = {https://juser.fz-juelich.de/record/1023520},
}