Chiral Cation Doping for Modulating Structural Symmetry of 2D Perovskites
Yi Xie, Jack Morgenstein, Benjamin G. Bobay, Ruyi Song, Naidel A. M. S. Caturello, Peter C. Sercel, Volker Blüm, David B. Mitzi
Abstract
Cation mixing in two-dimensional (2D) hybrid organic–inorganic perovskite (HOIP) structures represents an important degree of freedom for modifying organic templating effects and tailoring inorganic structures. However, the limited number of known cation-mixed 2D HOIP systems generally employ a 1:1 cation ratio for stabilizing the 2D perovskite structure. Here, we demonstrate a chiral–chiral mixed-cation system wherein a controlled small amount (<10%) of chiral cation S-2-MeBA (S-2-MeBA = ( S )-(−)-2-methylbutylammonium) can be doped into (S-BrMBA) 2 PbI 4 (S-BrMBA = ( S )-(−)-4-bromo-α-methylbenzylammonium), modulating the structural symmetry from a higher symmetry ( C 2) to the lowest symmetry state ( P 1). This structural change occurs when the concentration of S-2-MeBA, measured by solution nuclear magnetic resonance, exceeds a critical level─specifically, for 1.4 ± 0.6%, the structure remains as C 2, whereas 3.9 ± 1.4% substitution induces the structure change to P 1 (this structure is stable to ∼7% substitution). Atomic occupancy analysis suggests that one specific S-BrMBA cation site is preferentially substituted by S-2-MeBA in the unit cell. Density functional theory calculations indicate that the spin splitting along different k-paths can be modulated by cation doping. A true circular dichroism band at the exciton energy of the 3.9% doping phase shows polarity inversion and a ∼45 meV blue shift of the Cotton-effect-type line-shape relative to (S-BrMBA) 2 PbI 4 . A trend toward suppressed melting temperature with higher doping concentration is also noted. The chiral cation doping system and the associated doping-concentration-induced structural transition provide a material design strategy for modulating and enhancing those emergent properties that are sensitive to different types of symmetry breaking.