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Enhancing the Performance of Polymer Solar Cells via Core Engineering of NIR-Absorbing Electron Acceptors. | LitMetric

Enhancing the Performance of Polymer Solar Cells via Core Engineering of NIR-Absorbing Electron Acceptors.

Adv Mater

Department of Materials Science and Engineering, College of Engineering, Key Laboratory of Polymer Chemistry and Physics of Ministry of Education, Peking University, Beijing, 100871, China.

Published: April 2018

AI Article Synopsis

  • Researchers are focused on creating organic donor and acceptor materials that can absorb near-infrared (NIR) solar photons effectively, similar to silicon-based solar cells.
  • Newly developed fused-ring electron acceptors show increased absorption from 600 to 1000 nm and high electron mobility, suggesting that modifying the core structure can improve overall solar cell performance.
  • The combination of these new acceptors with the polymer donor PTB7-Th leads to significant improvements in short-circuit current density and a power conversion efficiency of 12.3% in single-junction organic solar cells.

Article Abstract

In order to utilize the near-infrared (NIR) solar photons like silicon-based solar cells, extensive research efforts have been devoted to the development of organic donor and acceptor materials with strong NIR absorption. However, single-junction organic solar cells (OSCs) with photoresponse extending into >1000 nm and power conversion efficiency (PCE) >11% have rarely been reported. Herein, three fused-ring electron acceptors with varying core size are reported. These three molecules exhibit strong absorption from 600 to 1000 nm and high electron mobility (>1 × 10 cm V s ). It is proposed that core engineering is a promising approach to elevate energy levels, enhance absorption and electron mobility, and finally achieve high device performance. This approach can maximize both short-circuit current density (  J ) and open-circuit voltage (V ) at the same time, differing from the commonly used end group engineering that is generally unable to realize simultaneous enhancement in both V and J . Finally, the single-junction OSCs based on these acceptors in combination with the widely polymer donor PTB7-Th yield J as high as 26.00 mA cm and PCE as high as 12.3%.

Download full-text PDF

Source
http://dx.doi.org/10.1002/adma.201706571DOI Listing

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