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Cooperative Regulation of <i>n</i>s<sup>2</sup> Lone-Pair Expression Realizes Distinct Excitonic Emissions in Hybrid Germanium, Tin, and Lead Halides

Han Jiang, Yawen Li, Peijie Zhang, Bin Xu, Xiaofan Xu, Zewei Quan

2024Journal of the American Chemical Society19 citationsDOI

Abstract

Lone-pair expression is significantly influenced by geometric constraints in hybrid metal halides (HMHs). Two-dimensional (2D) HMHs possess reduced structural dimensionality, allowing for a wide range of off-center displacement of the metal center. However, the effect of lone-pair-induced off-center distortion on the geometric configuration of inorganic units, electronic properties, and exciton emissions in 2D HMHs remains unclear. In this study, 2D DMPMBr 4 (DMP = N, N ′-dimethylpiperazine) HMHs of group 14 elements (M = Ge, Sn, and Pb) are developed, exhibiting pronounced stereochemical activity of n s 2 lone-pair electrons. Such 2D HMHs are chosen as a model system to demonstrate the influence of the stereochemical activity of n s 2 lone-pair electrons on the geometric configuration of inorganic units, electronic properties, and exciton emissions. The off-center distortion D is introduced to describe the degree of lone-pair expression in these HMHs, and a quantitative relationship between the D and FE/STE emissions is established. When the D is reduced to less than 0.24, the off-center distortion of the units is sufficiently suppressed to limit the lone-pair expression, facilitating the excitonic transition from the STE state to the FE state upon compression. Substituting metal cations with those having more inactive n s 2 lone-pair electrons exerts a similar effect to pressure in promoting the excitonic transitions in the DMPMBr 4 series. This study uncovers the relationship between the stereochemical activity of n s 2 lone-pair electrons and excitonic emissions, which could accelerate the development of HMHs with the desired optical properties.

Topics & Concepts

Lone pairChemistryHalideGermaniumExcitonCenter (category theory)TinMetalDisplacement (psychology)CrystallographyAtomic physicsStereochemistrySiliconInorganic chemistryMoleculeCondensed matter physicsPhysicsOrganic chemistryPsychotherapistPsychologyPerovskite Materials and Applications2D Materials and ApplicationsGa2O3 and related materials