Issue 18, 2024

Controlling AxMn[Fe(CN)6] charge transfer pathways through tilt-engineering for enhanced metal-to-metal interactions

Abstract

The induction of structural distortion in a controlled manner through tilt engineering has emerged as a potent method to finely tune the physical characteristics of Prussian blue analogues. Notably, this distortion can be chemically induced by filling their pores with cations that can interact with the cyanide ligands. With this objective in mind, we optimized the synthetic protocol to produce the stimuli-responsive Prussian blue analogue AxMn[Fe(CN)6] with A = K+, Rb+, and Cs+, to tune its stimuli-responsive behavior by exchanging the cation inside pores. Our crystallographic analyses reveal that the smaller the cation, the more pronounced the structural distortion, with a notable 20-degree Fe–CN tilting when filling the cavities with K+, 10 degrees with Rb+, and 2 degrees with Cs+. Moreover, this controlled distortion offers a means to switch on/off its stimuli-responsive behavior, while modifying its magnetic response. Thereby empowering the manipulation of the PBA's physical properties through cationic exchange

Graphical abstract: Controlling AxMn[Fe(CN)6] charge transfer pathways through tilt-engineering for enhanced metal-to-metal interactions

Supplementary files

Article information

Article type
Paper
Submitted
13 Mar 2024
Accepted
30 Aug 2024
First published
31 Aug 2024
This article is Open Access
Creative Commons BY license

Mater. Adv., 2024,5, 7473-7480

Controlling AxMn[Fe(CN)6] charge transfer pathways through tilt-engineering for enhanced metal-to-metal interactions

A. Regueiro, J. Castells-Gil, C. Shen, I. Mikulska, C. Allen, L. Bogani and R. Torres-Cavanillas, Mater. Adv., 2024, 5, 7473 DOI: 10.1039/D4MA00262H

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