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Pressure-induced shape and color changes and mechanical-stimulation-driven reverse transition in a one-dimensional hybrid halide

Die Zhang, Boyang Fu, Weilong He, Hengtao Li, F. S. Liu, Luhong Wang, Haozhe Liu, Liujiang Zhou, Weizhao Cai

2024Nature Communications19 citationsDOIOpen Access PDF

Abstract

Dynamic crystals with directional deformations in response to external stimuli through molecular reconfiguration, are observed predominantly in certain organic crystals and metal complexes. Low-dimensional hybrid halides, resemble these materials due to the presence of strong hydrogen bonds between bulky organic moieties and inorganic units, whereas their dynamic behavior remains largely unexplored. Here we show that a one-dimensional hybrid halide (MV)BiBr5 (MV = methylviologen) undergoes an isosymmetric phase transition at hydrostatic pressure of 0.20 GPa, accompanied by a remarkable length expansion of 20–30% and red to dark yellow color change. Unexpectedly, the backward transition can be fully reversed by mechanical stimulation rather than decompression. In the high-pressure phase, the coexistence of strong Bi3+ lone pair stereochemical activity and large reorientations of the planar MV2+ cations, together with the newly formed CH···Br hydrogen interactions, are the structural features that facilitate microscopic changes and stabilize the metastable high-pressure phase at ambient conditions. Dynamic behavior is typically observed in organic crystals and metal complexes, but is rarely found in hybrid halides. Here, the authors find a pressure-induced irreversible phase transition with remarkable shape and color changes in a 1D halide.

Topics & Concepts

HalideTransition (genetics)Materials scienceStimulationChemical physicsBiophysicsOptoelectronicsChemistryBiologyNeuroscienceBiochemistryInorganic chemistryGenePerovskite Materials and ApplicationsSolid-state spectroscopy and crystallographyPhotoreceptor and optogenetics research