2023年第70回応用物理学会春季学術講演会

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6 薄膜・表面 » 6.4 薄膜新材料

[17p-D419-1~15] 6.4 薄膜新材料

2023年3月17日(金) 13:30 〜 17:45 D419 (11号館)

村岡 祐治(岡山大)、清水 亮太(東工大)

17:30 〜 17:45

[17p-D419-15] Multiferroic ε-Fe2O3 Thin Films for Highly Efficient Visible Light Photoelectrochemical Water Splitting

Xinjue Wang1、Haining Li1、Hiroyasu Yamahara1、Hitoshi Tabata1、Munetoshi Seki1 (1.Tokyo Univ.)

キーワード:Multiferroic thin film, photoelectrochemical water splitting

Herein, single-phase ε-Fe2O3 thin film was grown on SrTiO3 (111) substrate through a pulsed laser deposition technique, with a growth temperature and an oxygen pressure of 700°C and 11 Pa, respectively. The X-ray diffraction 2θ/ω pattern for the ε-Fe2O3 film is shown in Fig.1. The ε-Fe2O3 thin film was highly oriented along the (004) direction. The epitaxial growth was confirmed using reciprocal space mapping of the (2010) reflection of the ε-Fe2O3 film and the (313) reflection of SrTiO3 substrate. The in-plane epitaxial relationship ε-Fe2O3 (200)//SrTiO3 (1–21) was also revealed. The three-electrode j-V measurement was conducted under visible light and UV light illumination condition, as shown in Fig. 2. We applied Pt as a counter electrode, 3M NaCl saturated Ag/AgCl as a reference electrode, and the photoelectrode samples as working electrode. The bandgap of ε-Fe2O3 was evaluated to be 2.1 eV using the Tauc plot. It could be observed that ε-Fe2O3 can produce photogenerated charge carriers without an external bias (0 V). The incident photon-to-current efficiency (IPCE) can reach 76.4% at the wavelength of 390 nm. This research might contribute to the water splitting application by providing a room-temperature multiferroic candidate.