Optical characterization of isothermal spin state switching in an Fe(II) spin crossover molecular and polymer ferroelectric bilayer

Using optical characterization, it is evident that the spin state of the spin crossover molecular complex [Fe{H B(pz) } (bipy)] (pz = tris(pyrazol-1-1y)-borohydride, bipy = 2,2'-bipyridine) depends on the electric polarization of the adjacent polymer ferroelectric polyvinylidene fluoride-hexafl...

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Bibliographic Details
Published in:Journal of physics. Condensed matter 2023-09, Vol.35 (36), p.365401
Main Authors: Yazdani, Saeed, Collier, Kourtney, Yang, Grace, Phillips, Jared, Dale, Ashley, Mosey, Aaron, Grocki, Samuel, Zhang, Jian, Shanahan, Anne E, Cheng, Ruihua, Dowben, Peter A
Format: Article
Language:English
Subjects:
Fe(II) complex
isothermal switching
spin crossover
spintronics
thin films
UV–Vis spectroscopy
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Summary:Using optical characterization, it is evident that the spin state of the spin crossover molecular complex [Fe{H B(pz) } (bipy)] (pz = tris(pyrazol-1-1y)-borohydride, bipy = 2,2'-bipyridine) depends on the electric polarization of the adjacent polymer ferroelectric polyvinylidene fluoride-hexafluoropropylene (PVDF-HFP) thin film. The role of the PVDF-HFP thin film is significant but complex. The UV-Vis spectroscopy measurements reveals that room temperature switching of the electronic structure of [Fe{H B(pz) } (bipy)] molecules in bilayers of PVDF-HFP/[Fe{H B(pz) } (bipy)] occurs as a function of ferroelectric polarization. The retention of voltage-controlled nonvolatile changes to the electronic structure in bilayers of PVDF-HFP/[Fe{H B(pz) } (bipy)] strongly depends on the thickness of the PVDF-HFP layer. The PVDF-HFP/[Fe{H B(pz) } (bipy)] interface may affect PVDF-HFP ferroelectric polarization retention in the thin film limit.
ISSN:0953-8984
1361-648X
DOI:10.1088/1361-648X/acd7ba