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Unprecedented 30 K hysteresis across switchable dielectric and magnetic properties in a bright luminescent organic-inorganic halide (CH6N3)(2)MnCl4

Sen, Abhijit and Swain, Diptikanta and Row, Tayur N Guru and Sundaresan, A (2019) Unprecedented 30 K hysteresis across switchable dielectric and magnetic properties in a bright luminescent organic-inorganic halide (CH6N3)(2)MnCl4. In: JOURNAL OF MATERIALS CHEMISTRY C, 7 (16). pp. 4838-4845.

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Official URL: https://doi.org/10.1039/c9tc00663j

Abstract

Multifunctional materials that exhibit various switchable properties and simultaneously feature excellent luminescent properties boast tremendous technological importance. However, realization of such materials is still elusive, as integration of these independent yet technologically important properties in single materials is fairly challenging. Here, we report a new highly photoluminescent hybrid (CH6N3)(2)MnCl4 (CH6N3 = guanidinium cation, GC) that exhibits an unprecedented 30 K wide hysteresis in dielectric and magnetic switching across the structural phase transition (SPT). The compound uniquely features trimeric (Mn3Cl12)(6-) units composed of face-sharing MnCl6 octahedra in its zero-dimensional crystal structure and undergoes a thermally induced reversible structural transition at 166/195 K. The high and low dielectric states show a remarkable 30 K wide reversible dielectric switching which is mainly portrayed by the relative population of quadrupolar and dipolar moments of disordered and ordered phases of GCs. Only a small change in the crystal volume across the transition is reflected in subtle magnetic switching. Moreover, the material exhibits an intense orange-red emission under ultraviolet excitation at room temperature with long lifetime (1.71 ms) and large quantum yield (39.5%). This report suggests a promising strategy to construct truly multifunctional optoelectronic materials and may be helpful to improve the understanding and control of switchable physical properties and luminescence in supramolecular materials.

Item Type: Journal Article
Additional Information: Copyright of this document belongs to ROYAL SOC CHEMISTRY.
Keywords: RED-LIGHT EMISSION; PHASE-TRANSITION; CATION
Department/Centre: Division of Chemical Sciences > Solid State & Structural Chemistry Unit
Depositing User: LIS Interns
Date Deposited: 22 May 2019 10:56
Last Modified: 22 May 2019 10:56
URI: http://eprints.iisc.ac.in/id/eprint/62693

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