Plasmonically enhanced Fe(ii) coordination complexes allow SERS readout of spin state switching below the optical diffraction limit
Yingrui Zhang, Zoi G. Lada, Wafaa Aljuhani, Yijun Lu, Chunchun Li, Yikai Xu, Grace G. Morgan, Steven E. J. Bell

TL;DR
This paper shows how plasmonic nanovoids can be used to monitor spin state changes in iron-based materials at the nanoscale using SERS.
Contribution
The first demonstration of using SERS to detect spin state switching in sub-micron SCO nano-objects within plasmonic hotspots.
Findings
SERS enabled monitoring of spin state transitions in <1 µm SCO nano-objects within plasmonic nanovoids.
Thermal hysteresis was retained in nanoscale clusters, indicating cooperative spin crossover behavior.
Abstract
Creating and monitoring spin crossover (SCO) materials at the nanoscale is challenging since the spin transition phenomena are perturbed and methods for monitoring them are limited. Optical approaches for monitoring nanoscale SCO are attractive but limited by weak signal levels. Here, we demonstrate for the first time that surface enhanced Raman spectroscopy (SERS) allows enhanced readout of spin state transitions of even <1 µm SCO nano-objects confined within plasmonic nanovoids. Pressing dry crystalline [Fe(Htrz)2(trz)](BF4) (1) into the nanogaps between sheets of metal nanoparticles gave strong SERS signals but was unsuccessful since the surface perturbed the spin transition behaviour. However, when 1 was placed in the plasmonic hotspots between the Au cores in clusters of Au@SCO core–shell nanoparticles, SCO was retained and could be monitored using SERS. Importantly, the clusters…
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Taxonomy
TopicsMagnetism in coordination complexes · Metal complexes synthesis and properties · Lanthanide and Transition Metal Complexes
