Solar cells are an important contributor to a renewable energy supply, but solar panel waste will quickly become an enormous problem. Now, in a study recently published in Journal of Materials Chemistry A, researchers from Nara Institute of Science and Technology (NAIST) have investigated the science that might help improve the utility of easily mass-producible, all-polymer-based solar cells.
Globally, approximately one-third of electricity currently comes from renewable sources. Silicon-based solar cells are the major contributor, but there’s an increasing problem: what to do with the panels after their 30-year lifetime. A May 2022 article in Chemical & Engineering News lays out the problem: even when facilities recycle the frames and covers of the panels, the most valuable or even toxic elements are simply disposed. With a forecasted 80 million metric tons of solar panel waste to have been produced by 2050, this is a massive waste problem.
Polymer-based solar cells are a possible, less-wasteful solution. Such panels are thin and flexible, and thus are in principle quite versatile. Nevertheless, they have certain problems; e.g., a lower power conversion efficiency than silicon. “This efficiency is substantially limited by the fill factors: commonly less than 60%, even in advanced devices,” says corresponding author Hiroaki Benten of Nara Institute of Science and Technology. “The science that underpins the limited efficiency of all-polymer blend solar cells remains insufficiently unexplored.”
A ground-breaking result of this research is the high fill factor: 70%, which remained 60% even for polymer films several hundred nanometers thick. Competing polymer technology exhibits a 40% fill factor at this thickness. This is because bimolecular recombination of free electrons with free holes substantially inhibited the fill factor prior work, but was suppressed in the current study.
What suppressed bimolecular recombination within the polymer blends? “There was substantial charge delocalization in the donor and acceptor domains,” explains Masakazu Nakamura, senior author. “Appropriate aggregation of the polymer donors and acceptors led to a substantially ordered local structure of the polymer, which helped keep the separation of the electrons from the holes.”
Even if researchers completely solve the efficiency problem of all-polymer solar cells, they’ll still need to improve on the 10-year service life of the most advanced research prototypes. Additional research efforts include optimizing the film morphology, and even developing hybrid polymer/silicon solar cells, to optimize energy collection and efficiency. In the coming years, solar cells might look and function completely different from—and better than—modern technology.
More information:
Ren Hagio et al, Chain aggregation dictates bimolecular charge recombination and fill factor of all-polymer blend solar cells, Journal of Materials Chemistry A (2022). DOI: 10.1039/D2TA04705E
Ren Hagio et al, Chain aggregation dictates bimolecular charge recombination and fill factor of all-polymer blend solar cells, Journal of Materials Chemistry A (2022). DOI: 10.1039/D2TA04705E
Provided by
Nara Institute of Science and Technology
Citation:
Improved efficiency of all-polymer solar cells (2022, October 3)
retrieved 3 October 2022
from https://techxplore.com/news/2022-10-efficiency-all-polymer-solar-cells.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no
part may be reproduced without the written permission. The content is provided for information purposes only.
For all the latest Technology News Click Here
For the latest news and updates, follow us on Google News.
Denial of responsibility! NewsBit.us is an automatic aggregator around the global media. All the content are available free on Internet. We have just arranged it in one platform for educational purpose only. In each content, the hyperlink to the primary source is specified. All trademarks belong to their rightful owners, all materials to their authors. If you are the owner of the content and do not want us to publish your materials on our website, please contact us by email – [email protected]. The content will be deleted within 24 hours.
