Near-infrared non-fused ring acceptors with light absorption up to 1000 nm for efficient and low-energy loss organic solar cells
It is challenging to afford both high-performance and low-energy loss (E loss) organic solar
cells (OSCs) based on near-infrared (NIR) non-fused ring electron acceptors (NFREAs) with …
cells (OSCs) based on near-infrared (NIR) non-fused ring electron acceptors (NFREAs) with …
In silico modelling of acceptor materials by End-capped and π-linker modifications for High-Performance organic solar Cells: Estimated PCE> 18%
Efficient acceptor materials are of great importance in improving the performance of organic
solar cells. Electron transport materials play a crucial role in improving the power conversion …
solar cells. Electron transport materials play a crucial role in improving the power conversion …
Molecular Insights of Non‐fused Ring Acceptors for High‐Performance Non‐fullerene Organic Solar Cells
Non‐fullerene acceptors with fused‐ring structures have rapidly improved the performance
of organic solar cells over the past five years, but they still suffer from synthetic complexity …
of organic solar cells over the past five years, but they still suffer from synthetic complexity …
Design of a new fused‐ring electron acceptor with excellent compatibility to wide‐bandgap polymer donors for high‐performance organic photovoltaics
Fused‐ring electron acceptors (FREAs) have recently received intensive attention. Besides
the continuing development of new FREAs, the demand for FREAs featuring good …
the continuing development of new FREAs, the demand for FREAs featuring good …
Selenium heterocyclic electron acceptor with small urbach energy for as-cast high-performance organic solar cells
Typical organic photovoltaic materials show high Urbach energies (ca. 25–50 meV), which
is considerably higher than those of their inorganic counterparts and limits further …
is considerably higher than those of their inorganic counterparts and limits further …
Simple nonfused ring electron acceptors with 3D network packing structure boosting the efficiency of organic solar cells to 15.44%
X Wang, H Lu, Y Liu, A Zhang, N Yu… - Advanced Energy …, 2021 - Wiley Online Library
Three nonfused ring electron acceptors (NFREAs; 2Th‐2F, BTh‐Th‐2F, and 2BTh‐2F) with
thieno [3, 2‐b] thiophene bearing two bis (4‐butylphenyl) amino substituents as the core, 3 …
thieno [3, 2‐b] thiophene bearing two bis (4‐butylphenyl) amino substituents as the core, 3 …
A fused ring electron acceptor with decacyclic core enables over 13.5% efficiency for organic solar cells
Extending π‐conjugation of donor units in fused ring electron acceptors (FREAs) promises
to reinforce intramolecular charge transfer for smaller bandgaps, and enhances …
to reinforce intramolecular charge transfer for smaller bandgaps, and enhances …
[HTML][HTML] Small-molecule electron acceptors for efficient non-fullerene organic solar cells
The development of organic electron acceptor materials is one of the key factors for realizing
high performance organic solar cells. Compared to traditional fullerene acceptor materials …
high performance organic solar cells. Compared to traditional fullerene acceptor materials …
Progress in non-fullerene acceptor based organic solar cells
Organic solar cells (OSCs) based on fullerene acceptors demonstrated significant growth
over the past two decades with power conversion efficiencies (PCE) exceeding 13 …
over the past two decades with power conversion efficiencies (PCE) exceeding 13 …
Recent progress in ternary organic solar cells based on nonfullerene acceptors
The use of a ternary component is a facile and effective method to further improve the device
performances of binary organic solar cells (OSCs) comprising one donor and one acceptor …
performances of binary organic solar cells (OSCs) comprising one donor and one acceptor …