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Novel Polymer‐Based Organic/c‐Si Monolithic Tandem Solar Cell: Enhanced Efficiency using Interlayer and Transparent Top Electrode Engineering
Author(s) -
Park HyunJung,
Park So Hyun,
Lee SangWon,
Kang Yoonmook,
Kim Donghwan,
Son Hae Jung,
Lee HaeSeok
Publication year - 2021
Publication title -
macromolecular rapid communications
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.348
H-Index - 154
eISSN - 1521-3927
pISSN - 1022-1336
DOI - 10.1002/marc.202100305
Subject(s) - tandem , materials science , silicon , electrode , polymer , polymer solar cell , substrate (aquarium) , organic solar cell , optoelectronics , energy conversion efficiency , nanotechnology , composite material , chemistry , oceanography , geology
Tandem solar cells which are electrically connected with various photoactive materials have the potential to solve the current challenges by exceeding the theoretically limited efficiency of single junction solar cells. Here the first monolithic organic/silicon tandem cell is reported based on a semitransparent polymer on a crystalline silicon (c‐Si) substrate. Herein, experimental results are presented for four‐terminal (4‐T) and monolithic two‐terminal (2‐T) organic/c‐Si tandem cells using organic cells with an inverted n‐i‐p structure and c‐Si cells with an n‐type TOPCon structure with detailed analysis. The best 4‐T tandem cell efficiency is 15.22%, and 2‐T results show that the top (organic) and bottom (c‐Si) cells are electrically connected by an open‐circuit voltage over 1.4 V. Further, a simulated efficiency of over 20% using the organic/c‐Si tandem is achieved, implying the tandem efficiency can be enhanced through further improvement of electric and optical characteristics with the optimization.