Spin crossover in mixed-anion Fe(NH2trz)3(BF4)(SiF6)0.5 crystalline rod-shaped particles: the strength of the solid–liquid post synthetic modification

Xinyu Yang; Alejandro Enriquez-Cabrera; Dorian Toha; Yannick Coppel; Lionel Salmon; Azzedine Bousseksou

doi:10.1039/D3DT02003G

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Spin crossover in mixed-anion Fe(NH₂trz)₃(BF₄)(SiF₆)_0.5 crystalline rod-shaped particles: the strength of the solid–liquid post synthetic modification†

Xinyu Yang,^a Alejandro Enriquez-Cabrera,

^a Dorian Toha,^a Yannick Coppel,

^a Lionel Salmon

*^a and Azzedine Bousseksou*^a

Author affiliations

* Corresponding authors

^a LCC, CNRS & Université de Toulouse (UPS, INP), 31077 Toulouse, France
E-mail: lionel.salmon@lcc-toulouse.fr, azzedine.bousseksou@lcc-toulouse.fr

Abstract

A pure mixed-anion Fe(NH₂trz)₃(BF₄)(SiF₆)_0.5 spin crossover complex is obtained implementing a solid–liquid post synthetic modification approach from the Fe(NH₂trz)₃(BF₄)₂ parent complex. This method allows obtaining highly crystalline powder samples incorporating homogeneous micrometric (1 μm long) rod-shaped particles. This compound presents an abrupt spin crossover behaviour with a narrow (10 K) hysteresis loop centred just above room temperature (320 K) which makes it very interesting for future integration into devices for various applications.

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Article information

DOI: https://doi.org/10.1039/D3DT02003G
Article type: Paper
Submitted: 27 Jun 2023
Accepted: 13 Jul 2023
First published: 19 Jul 2023

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Dalton Trans., 2023,52, 10828-10834

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Spin crossover in mixed-anion Fe(NH₂trz)₃(BF₄)(SiF₆)_0.5 crystalline rod-shaped particles: the strength of the solid–liquid post synthetic modification

X. Yang, A. Enriquez-Cabrera, D. Toha, Y. Coppel, L. Salmon and A. Bousseksou, Dalton Trans., 2023, 52, 10828 DOI: 10.1039/D3DT02003G

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