Electrical Sensing of Molecular Spin State Switching in a Spin Crossover Complex Using an Organic Field‐Effect Transistor - Équipe Matériaux et Procédés pour la Nanoélectronique
Article Dans Une Revue Advanced Electronic Materials Année : 2024

Electrical Sensing of Molecular Spin State Switching in a Spin Crossover Complex Using an Organic Field‐Effect Transistor

Résumé

An organic semiconductor – spin crossover polymer composite heterostructure is fabricated, and it is integrated into an organic field-effect transistor (OFET) with the aim to achieve electrical sensing of molecular spin state switching events. The OFETs display ≈50–70% increase in drain-source current intensity when going from the low spin (LS) to the high spin (HS) state. This phenomenon is reversible without apparent fatigue and the application of a gate voltage significantly enhances the sensing sensitivity. Capacitance measurements and finite element calculations allow identifying mechanical stress, induced by the spin state switching, at the origin of the transistor response. These results open up appealing perspectives for the integration of spin crossover molecules into technological applications, such as soft robotics .
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Dates et versions

hal-04761827 , version 1 (31-10-2024)

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Yuteng Zhang, Seyed Ehsan Alavi, Ion Soroceanu, Dennis Wanyoike Kamau, Aurelian Rotaru, et al.. Electrical Sensing of Molecular Spin State Switching in a Spin Crossover Complex Using an Organic Field‐Effect Transistor. Advanced Electronic Materials, In press, pp.2400590. ⟨10.1002/aelm.202400590⟩. ⟨hal-04761827⟩
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