Polycarbonate/Titania Hybrid Films with Localized Photo-Induced Magnetic-Phase Transition

Materials that exhibit the photo-induced magnetic-phase transition of titania are receiving significant attention because they can be easily switched between diamagnetism and paramagnetism by UV irradiation. However, it is difficult to store photo-induced titanium (Ti ) in air because of its easy ox...

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Bibliographic Details
Published in:Nanomaterials (Basel, Switzerland) Switzerland), 2020-12, Vol.11 (1), p.5
Main Authors: Hara, Shuta, Kurebayashi, Sei, Sanae, Genza, Watanabe, Shota, Kaneko, Takehiro, Toyama, Takeshi, Shimizu, Shigeru, Ikake, Hiroki
Format: Article
Language:English
Subjects:
magnetic polymers
nanocomposites
networks
oligomers
polycarbonates
Small Angle X-ray Scattering (SAXS)
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Summary:Materials that exhibit the photo-induced magnetic-phase transition of titania are receiving significant attention because they can be easily switched between diamagnetism and paramagnetism by UV irradiation. However, it is difficult to store photo-induced titanium (Ti ) in air because of its easy oxidation upon oxygen exposure. In this study, titania/polycarbonate hybrid films were prepared using linear 1,6-hexanediol (PHMCD), cyclic 1,4-cyclohexanedimethanol (PCHCD), or their copolymerized carbonate oligomers using the sol-gel method. The oxygen permeability of the hybrid film decreased as the ratio of the ring structure increased by a factor of approximately 32 from PHMCD with only the chain structure to PCHCD with only the ring structure. These hybrid films can generate Ti under a UV irradiation of 250 W for 2 h, and the difference in oxygen permeability significantly affected the lifetime of the Ti by a factor of up to 120. In addition, the tensile tests and IR measurements demonstrated that UV irradiation had little effect on the mechanical intensity and matrix chemical structure. Moreover, the magnetic susceptibility of Ti present in PCHCD was confirmed to be 6.2 (10 emu/g(titania)) under an external magnetic field of 5 T induced using a superconducting quantum interference device.
ISSN:2079-4991
2079-4991
DOI:10.3390/nano11010005