[C5H12N]2SnBr6: a lead-free phase transition compound with switchable quadratic nonlinear optical properties

Solid-state phase transition materials with tunable quadratic nonlinear optical (NLO) properties under different states hold great potential applications in a wide range of fields. Despite great efforts, lead-free organic-inorganic hybrid NLO switchable materials are still scarce. Here, we report a new lead-free organic-inorganic hybrid compound (NMP)(2)SnBr6 (1, where NMP is N-methylpyrrolidinium) which adopts the zero-dimensional perovskite-like motif. It demonstrates a structural phase transition at T-c = 352 K, as confirmed by differential scanning calorimetry and specific heat measurements. Single-crystal structure analyses at different temperatures indicate the occurrence of symmetry breaking from Pbam (at 360 K, > T-c) to Pba2 (at 300 K, < T-c), which can be attributed to the configuration changes of organic N-methylpyrrolidinium cations. In particular, 1 shows remarkable NLO signal contrast up to similar to 25 and excellent switching stability after multiple heating-cooling cycles, suggesting its potential application as a switchable NLO material. This work paves the way for exploring new organic-inorganic hybrid functional materials.

Automated summary

In this study, a new lead-free organic-inorganic hybrid compound (NMP)(2)SnBr6 was reported, which exhibits tunable quadratic nonlinear optical properties and has potential applications in various fields. The compound undergoes a structural phase transition and shows excellent switching stability after multiple heating-cooling cycles, indicating its potential as a switchable NLO material.