Nonfullerene acceptor molecules for bulk heterojunction organic solar cells
The bulk-heterojunction blend of an electron donor and an electron acceptor material is the
key component in a solution-processed organic photovoltaic device. In the past decades, a p …
key component in a solution-processed organic photovoltaic device. In the past decades, a p …
Non-fused ring electron acceptors for high-performance and low-cost organic solar cells: Structure-function, stability and synthesis complexity analysis
In recent years, the development of non-fullerene acceptors (NFAs) has led to rapid
advances in organic solar cells (OSCs), resulting in power conversion efficiency (PCE) …
advances in organic solar cells (OSCs), resulting in power conversion efficiency (PCE) …
Improved charge transport and reduced nonradiative energy loss enable over 16% efficiency in ternary polymer solar cells
Recent advances in the material design and synthesis of nonfullerene acceptors (NFAs)
have revealed a new landscape for polymer solar cells (PSCs) and have boosted the power …
have revealed a new landscape for polymer solar cells (PSCs) and have boosted the power …
Solid Additive Delicately Controls Morphology Formation and Enables High‐Performance in Organic Solar Cells
Volatile solid additives are an effective strategy for optimizing morphology and improving the
power conversion efficiencies (PCEs) of organic solar cells (OSCs). Much research has …
power conversion efficiencies (PCEs) of organic solar cells (OSCs). Much research has …
Side-chain isomerization on an n-type organic semiconductor ITIC acceptor makes 11.77% high efficiency polymer solar cells
Low bandgap n-type organic semiconductor (n-OS) ITIC has attracted great attention for the
application as an acceptor with medium bandgap p-type conjugated polymer as donor in …
application as an acceptor with medium bandgap p-type conjugated polymer as donor in …
High-performance electron acceptor with thienyl side chains for organic photovoltaics
Y Lin, F Zhao, Q He, L Huo, Y Wu… - Journal of the …, 2016 - ACS Publications
We develop an efficient fused-ring electron acceptor (ITIC-Th) based on indacenodithieno
[3, 2-b] thiophene core and thienyl side-chains for organic solar cells (OSCs). Relative to its …
[3, 2-b] thiophene core and thienyl side-chains for organic solar cells (OSCs). Relative to its …
A facile planar fused-ring electron acceptor for as-cast polymer solar cells with 8.71% efficiency
A planar fused-ring electron acceptor (IC-C6IDT-IC) based on indacenodithiophene is
designed and synthesized. IC-C6IDT-IC shows strong absorption in 500–800 nm with …
designed and synthesized. IC-C6IDT-IC shows strong absorption in 500–800 nm with …
Non-fullerene polymer solar cells based on alkylthio and fluorine substituted 2D-conjugated polymers reach 9.5% efficiency
Non-fullerene polymer solar cells (PSCs) with solution-processable n-type organic
semiconductor (n-OS) as acceptor have seen rapid progress recently owing to the synthesis …
semiconductor (n-OS) as acceptor have seen rapid progress recently owing to the synthesis …
Fused hexacyclic nonfullerene acceptor with strong near‐infrared absorption for semitransparent organic solar cells with 9.77% efficiency
A fused hexacyclic electron acceptor, IHIC, based on strong electron‐donating group
dithienocyclopentathieno [3, 2‐b] thiophene flanked by strong electron‐withdrawing group 1 …
dithienocyclopentathieno [3, 2‐b] thiophene flanked by strong electron‐withdrawing group 1 …
Asymmetric acceptors with fluorine and chlorine substitution for organic solar cells toward 16.83% efficiency
Abstract Small‐molecule acceptors (SMAs)‐based organic solar cells (OSCs) have
exhibited great potential for achieving high power conversion efficiencies (PCEs) …
exhibited great potential for achieving high power conversion efficiencies (PCEs) …