Thermo-mechanical control of second harmonic generation in a ferroelectric plastic crystal

L Ye and MY Guo and ZL Fang and WJ Xu and WX Zhang, JOURNAL OF MATERIALS CHEMISTRY C, 13, 21517-21527 (2025).

DOI: 10.1039/d5tc02880a

Multi-step nonlinear optical (NLO) switching opens avenues for photonic and optoelectronic technologies, but remains limited by insufficient mechanistic insight and poor tunability at the macroscopic level. Here, we report a ferroelectric plastic crystal, (TMIPA)InBr4 (1, TMIPA+ = N,N,N-trimethyl-2-propanaminium), that exhibits four discrete second harmonic generation (SHG) states through an "on-off-on-off" switching pattern over a wide thermal window (120-500 K), enabled by sequential phase transitions driven by progressive freezing of TMIPA+ cation dynamics and cooperative interactions with InBr4- anions. Capitalizing on the plastic nature of 1, we fabricated a hot-pressed tablet with a remarkably high density (2.42 g cm-3, 98% of crystallographic density), achieving significant SHG enhancements of 2.8 and 3.4 times greater in the low- and intermediate-temperature phases, respectively, relative to loose powder. Notably, deep potential molecular dynamics simulations, complemented by hyperpolarizability calculations, reveal atomic-level insight into the interplay between dynamic disorder and NLO activity, a regime inaccessible to traditional molecular dynamics simulations or density functional theory. By bridging molecular motion with macroscopic SHG behavior, this work established a framework for engineering programmable NLO switches in plastic crystals.

Return to Publications page