Altering alkyl-chains branching positions for boosting the performance of small-molecule acceptors for highly efficient nonfullerene organic solar cells
The emergence of the latest generation of small-molecule acceptor (SMA) materials, with Y6
as a typical example, accounts for the surge in device performance for organic solar cells …
as a typical example, accounts for the surge in device performance for organic solar cells …
[PDF][PDF] Altering alkyl-chains branching positions for boosting the performance of small-molecule acceptors for highly efficient nonfullerene organic solar cells
Z Luo, R Sun, C Zhong, T Liu, G Zhang… - SCIENCE CHINA …, 2015 - researchgate.net
Non-fullerene small-molecule acceptors (SMAs) are gradually replacing fullerene
derivatives in organic solar cells (OSC) due to their easily tunable optical and electronic …
derivatives in organic solar cells (OSC) due to their easily tunable optical and electronic …
Altering alkyl-chains branching positions for boosting the performance of small-molecule acceptors for highly efficient nonfullerene organic solar cells
Z Luo, R Sun, C Zhong, T Liu, G Zhang… - Science China …, 2020 - search.proquest.com
The emergence of the latest generation of small-molecule acceptor (SMA) materials, with Y6
as a typical example, accounts for the surge in device performance for organic solar cells …
as a typical example, accounts for the surge in device performance for organic solar cells …
[引用][C] Altering alkyl-chains branching positions for boosting the performance of small-molecule acceptors for highly efficient nonfullerene organic solar cells
Z Luo, R Sun, C Zhong, T Liu, G Zhang, Y Zou… - Science China …, 2020 - cir.nii.ac.jp
Altering alkyl-chains branching positions for boosting the performance of small-molecule
acceptors for highly efficient nonfullerene organic solar cells | CiNii Research CiNii 国立情報学 …
acceptors for highly efficient nonfullerene organic solar cells | CiNii Research CiNii 国立情報学 …