2021
DOI: 10.1002/adma.202105586
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Photo‐Thermal Switching of Individual Plasmonically Activated Spin Crossover Nanoparticle Imaged by Ultrafast Transmission Electron Microscopy

Abstract: Spin Crossover (SCO) is a promising switching phenomenon when implemented in electronic devices as molecules, thin films or nanoparticles. Among the properties modulated along this phenomenon, optically induced mechanical changes are of tremendous importance as they can work as fast light-induced mechanical switches or allow to investigate and control microstructural strains and fatigability. The development of characterization techniques probing nanoscopic behaviour with high spatio-temporal resolution allows… Show more

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Cited by 22 publications
(32 citation statements)
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“…Furthermore, increased heating also speeds up the switching time, down the 10 ns time range for the highest fluence values, on nanoparticles [ 99 ]. This behavior is confirmed by time-resolved electron microscopy, showing a sub-µm particle expansion under illumination, that fully takes place below 20 ns for the highest fluence used [ 104 , 105 ]. Generally, one should be cautious about the thermal heating processes, as SCO materials may have limited thermal conductivity [ 106 ].…”
Section: Stabilization Of the Light-induced Statementioning
confidence: 71%
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“…Furthermore, increased heating also speeds up the switching time, down the 10 ns time range for the highest fluence values, on nanoparticles [ 99 ]. This behavior is confirmed by time-resolved electron microscopy, showing a sub-µm particle expansion under illumination, that fully takes place below 20 ns for the highest fluence used [ 104 , 105 ]. Generally, one should be cautious about the thermal heating processes, as SCO materials may have limited thermal conductivity [ 106 ].…”
Section: Stabilization Of the Light-induced Statementioning
confidence: 71%
“…A broad understanding of the limits to fidelity and reliability is, however, not extensive given the limited number of studies in the literature (see a pertinent review in [ 113 ]). Even though there are indications that laser pulses of high fluence allow for only a limited number of operations [ 105 ], recent reports indicate that SCO materials should be capable of sustaining a significant number of thermal switching events (up to 10 7 ) [ 114 ]. Further improvements can also be gained by nanomaterials design.…”
Section: Discussionmentioning
confidence: 99%
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“…Here, photon-induced electronic transitions between different states of excitation in molecules lead to structural transformations visible by imaging or diffraction. While the electronic transitions occur in femtoseconds and cannot be detected by UTEM, reversible structural changes in the pico-to nanosecond regime can be imaged [45,46].…”
Section: Photochemical Reactions In Organic Systemsmentioning
confidence: 99%
“…Furthermore, the integration of EELS provides the analytical information so that the composition of the specimen can be determined as a function of time with nanosecond resolution, and the kinetics of fast reactions can be studied at the nanoscale. In this presentation, additional examples for irreversible and reversible transformations [6] will be shown [7].…”
mentioning
confidence: 99%