%0 Journal Article
%T Phthalimide©\Based High Mobility Polymer Semiconductors for Efficient Nonfullerene Solar Cells with Power Conversion Efficiencies over 13%
%A Bin Liu
%A Chang Woo Koh
%A Han Young Woo
%A Hang Wang
%A Huiliang Sun
%A Jianhua Chen
%A Jianwei Yu
%A Kun Yang
%A Peng Chen
%A Qiaogan Liao
%A Shiming Zhang
%A Xin Zhou
%J Archive of "Advanced Science".
%D 2019
%R 10.1002/advs.201801743
%X Highly efficient nonfullerene polymer solar cells (PSCs) are developed based on two new phthalimide©\based polymers phthalimide©\difluorobenzothiadiazole (PhI©\ffBT) and fluorinated phthalimide©\ffBT (ffPhI©\ffBT). Compared to all high©\performance polymers reported, which are exclusively based on benzo[1,2©\b:4,5©\b¡ä]dithiophene (BDT), both PhI©\ffBT and ffPhI©\ffBT are BDT©\free and feature a D©\A1©\D©\A2 type backbone. Incorporating a second acceptor unit difluorobenzothiadiazole leads to polymers with low©\lying highest occupied molecular orbital levels (¡Ö£¿5.6 eV) and a complementary absorption with the narrow bandgap nonfullerene acceptor IT©\4F. Moreover, these BDT©\free polymers show substantially higher hole mobilities than BDT©\based polymers, which are beneficial to charge transport and extraction in solar cells. The PSCs containing difluorinated phthalimide©\based polymer ffPhI©\ffBT achieve a substantial PCE of 12.74% and a large V oc of 0.94 V, and the PSCs containing phthalimide©\based polymer PhI©\ffBT show a further increased PCE of 13.31% with a higher J sc of 19.41 mA cm£¿2 and a larger fill factor of 0.76. The 13.31% PCE is the highest value except the widely studied BDT©\based polymers and is also the highest among all benzothiadiazole©\based polymers. The results demonstrate that phthalimides are excellent building blocks for enabling donor polymers with the state©\of©\the©\art performance in nonfullerene PSCs and the BDT is not necessary for constructing such donor polymers
%K difluorobenzothiadiazole
%K high mobility polymers
%K high power conversion efficiencies
%K nonfullerene polymer solar cells
%K phthalimide
%U https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6343056/