Carboxylate substituted pyrazine: A simple and low-cost building block for novel wide bandgap polymer donor enables 15.3% efficiency in organic solar cells
In addition to high power conversion efficiency (PCE) and good stability, the low-cost of
photovoltaic materials is also very important for the practical application of organic solar …
photovoltaic materials is also very important for the practical application of organic solar …
Carboxylate substituted pyrazine: A simple and low-cost building block for novel wide bandgap polymer donor enables 15.3% efficiency in organic solar cells
J Wu, Q Fan, M Xiong, Q Wang, K Chen, H Liu, M Gao… - Nano Energy, 2021 - vbn.aau.dk
In addition to high power conversion efficiency (PCE) and good stability, the low-cost of
photovoltaic materials is also very important for the practical application of organic solar …
photovoltaic materials is also very important for the practical application of organic solar …
Carboxylate substituted pyrazine: A simple and low-cost building block for novel wide bandgap polymer donor enables 15.3% efficiency in organic solar cells
J Wu, Q Fan, M Xiong, Q Wang, K Chen, H Liu… - Nano …, 2021 - ui.adsabs.harvard.edu
In addition to high power conversion efficiency (PCE) and good stability, the low-cost of
photovoltaic materials is also very important for the practical application of organic solar …
photovoltaic materials is also very important for the practical application of organic solar …
Carboxylate substituted pyrazine: A simple and low-cost building block for novel wide bandgap polymer donor enables 15.3% efficiency in organic solar cells
J Wu, Q Fan, M Xiong, Q Wang, K Chen - Nano Energy (Print), 2021 - inis.iaea.org
[en] Highlights:• A novel wide bandgap polymer donor PFBCPZ was synthesized.• The novel
building block (DTCPz) showed easily synthesized routs with cheap raw material.• The OSC …
building block (DTCPz) showed easily synthesized routs with cheap raw material.• The OSC …
Carboxylate substituted pyrazine: A simple and low-cost building block for novel wide bandgap polymer donor enables 15.3% efficiency in organic solar cells
J Wu, Q Fan, M Xiong, Q Wang, K Chen, H Liu, M Gao… - Nano Energy, 2021 - osti.gov
Carboxylate substituted pyrazine: A simple and low-cost building block for novel wide bandgap
polymer donor enables 15.3% efficiency in organic solar cells (Journal Article) | DOE PAGES …
polymer donor enables 15.3% efficiency in organic solar cells (Journal Article) | DOE PAGES …