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Piezochromism and Conductivity Modulations under High Pressure by Manipulating the Viologen Radical Concentration

Qi Sui, He‐Chong Wang, Yanyan Zhang, Rong Sun, Xinxin Jin, Bing‐Wu Wang, Lin Wang, Song Gao

2023Chemistry - A European Journal10 citationsDOIOpen Access PDF

Abstract

Abstract Manipulating the radical concentration to modulate the properties in solid multifunctional materials is an attractive topic in various frontier fields. Viologens have the unique redox capability to generate radical states through reversible electron transfer (ET) under external stimuli. Herein, taking the viologens as the model, two kinds of crystalline compounds with different molecule‐conjugated systems were designed and synthesized. By subjecting the specific model viologens to pressure, the cross‐conjugated 2‐X all exhibit much higher radical concentrations, along with more sensitive piezochromic behaviors, compared to the linear‐conjugated 1‐X . Unexpectedly, we find that the electrical resistance ( R ) of 1‐NO 3 decreased by three orders of magnitude with the increasing pressure, while that in high‐radical‐concentration 2‐NO 3 remained almost unchanged. To date, such unusual invariant conductivity has not been documented in molecular‐based materials under high pressure, breaking the conventional wisdom that the generations of radicals are beneficial to improve conductivity. We highlight that adjusting the molecular conjugation modes can be used as an effective way to regulate the radical concentrations and thus modulate properties rationally.

Topics & Concepts

ViologenConjugated systemRadicalConductivityElectron transferPhotochemistryRedoxChemistryMoleculeElectrical resistivity and conductivityChemical physicsMaterials scienceOrganic chemistryPolymerPhysical chemistryEngineeringElectrical engineeringPerovskite Materials and ApplicationsLuminescence and Fluorescent MaterialsOrganic Light-Emitting Diodes Research