The ability-conversion efficiencies (PCEs) of natural photo voltaic cells primarily based on compounds often known as polymer donors and fused ring electron acceptors (FREAs) have not too long ago exceeded 19%. In distinction, natural photo voltaic cells primarily based on non-fused ring electron acceptors (NFREAs), extra inexpensive compounds characterised by non-fused (i.e., separate) fragrant rings, have up to now exhibited disappointing efficiencies of round 16%.
As synthesizing NFREAs is considerably inexpensive than synthesizing FREAs, creating extra environment friendly photo voltaic cells primarily based on these supplies might have essential implications. Particularly, it might facilitate the widespread adoption of natural photo voltaic cells, thus doubtlessly contributing to the discount of emissions and the mitigation of environmental points.
Researchers at Shanghai Jiao Tong College, Qingdao College and different institutes in China not too long ago proposed a brand new strategy to manufacture extra environment friendly natural photo voltaic cells primarily based on NFRAs. This strategy, outlined in a paper revealed in Nature Vitality, depends on using a solvent primarily based on chloroform (CF) and o-xylene (OXY), in addition to a solid-state additive that additional enhances crystallization in NFRAs, thus enabling increased PCEs in photo voltaic cells primarily based on these compounds.
“Non-fused ring electron acceptors (NFREAs) potentially have lower synthetic costs than their fused counterparts,” Rui Zeng, Ming Zhang and their colleagues wrote of their paper. “However, the low backbone planarity and the presence of bulky substituents adversely affect the crystallinity of NFREAs, impeding charge transport and the formation of bicontinuous morphology in organic solar cells. We show that a binary solvent system can individually control the crystallization and phase separation of the donor polymer (for example, D18) and the NFREA (for example, 2BTh-2F-C2).”
As a part of their examine, Zeng, Zhang and their collaborators first designed and synthesized a compound combination containing CF and OXY. They then noticed how a donor polymer and NFREA responded to this solvent combination, focusing particularly on the formation of movies on these compounds.
“We select solvents such as CF and OXY that evaporate at different temperatures and rates and have different solubility for the donor polymer D18,” the researchers wrote. “Upon evaporation of chloroform, D18 starts to assemble into fibrils. Then, the evaporation of o-xylene induces the rapid formation of a fibril network that phase segregates 2BTh-2F-C2 into pure domains and leads to a bicontinuous morphology.”
The researchers additionally launched a solid-state additive, specifically 1,4-diiodobenzene (DIB), to their pattern. This additive was positioned within the fashioned photoactive skinny movie, whereas it had nearly dried, to additional improve the crystallization of the NFREA.
The researchers used their strategy to develop new photo voltaic cells primarily based on NFREAs, which they then assessed in a collection of preliminary checks. Remarkably, they discovered that the morphology enabled by their solvent and additive enabled PCEs of 19.02% for small-area (0.052cm2) cells and 17.28% for 1 cm2 units.
This current examine opens new prospects for the fabrication of natural photo voltaic cells primarily based on NFREAs, which might be considerably inexpensive than their FREAs-based counterparts. The promising findings gathered by this analysis group might quickly encourage additional efforts on this path, doubtlessly contributing to the longer term commercialization of natural photo voltaic cells.
Extra info:
Rui Zeng et al, Attaining 19% effectivity in non-fused ring electron acceptor photo voltaic cells through solubility management of donor and acceptor crystallization, Nature Vitality (2024). DOI: 10.1038/s41560-024-01564-0
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