Zhang Z, Kong L, Wang X, Wang R, Tang H, Chen M, Yang Y, Zhang L, Fu Y, Lu X, Ma D, Lüer L, Liu C, Brabec C, Chen J (2025)
Publication Type: Journal article
Publication year: 2025
Controlling activelayer morphology during drying is pivotal for the simultaneous realization of high efficiency and durability in Yseries organic solar cells (OSCs). Here, we uncover how the physical state of in situ removable (ISR) isomeric additives, oDF (liquid), mDF (quasisolid), and pDF (solid), governs film formation, molecular ordering, and device stability in binary OSCs. Among them, quasisolid mDF functions as a coldsublimating transient structuring agent: it widens earlystage solvent removal window yet accelerates intermediate crystallization, tightens π–π stacking, enlarges coherence length, and programs a favorable vertical phase separation, as resolved by in situ UV–vis, GIWAXS, and depthprofiled spectroscopy. mDF interacts most strongly with L8-BO while fully evaporating from the film, minimizing nonradiative losses and avoiding the adverse impact of residual additives on device stability. Consequently, PM6:L8BO devices reach 19.28% PCE with improved carrier mobility and suppressed trapassisted recombination; applying mDF to D18:L8BO yields 20.08%. Under 1sun illumination at 70 °C, mDF extends operational stability to T
APA:
Zhang, Z., Kong, L., Wang, X., Wang, R., Tang, H., Chen, M.,... Chen, J. (2025). Cold-Sublimating Quasi-Solid Additive Enables High Efficiency and Long Operational Stability Binary Organic Solar Cells. Advanced Energy Materials. https://doi.org/10.1002/aenm.202505276
MLA:
Zhang, Zesheng, et al. "Cold-Sublimating Quasi-Solid Additive Enables High Efficiency and Long Operational Stability Binary Organic Solar Cells." Advanced Energy Materials (2025).
BibTeX: Download