2023年第70回応用物理学会春季学術講演会

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22 合同セッションM 「フォノンエンジニアリング」 » 22.1 合同セッションM 「フォノンエンジニアリング」

[17a-D511-1~9] 22.1 合同セッションM 「フォノンエンジニアリング」

2023年3月17日(金) 09:15 〜 11:45 D511 (11号館)

塩見 淳一郎(東大)、太田 裕道(北大)

09:45 〜 10:00

[17a-D511-3] Active Layer for Solid-State Electrochemical Thermal Transistors I:
SrCoOx−SrFeOx solid solutions

〇(D)Zhiping Bian1、Qian Yang2、Mitsuki Yoshimura3、Joonhyuk Lee4、Hyoungjeen Jeen4、Jinghuang Lin5、Bin Feng5、Yuichi Ikuhara5、Hai Jun Cho6、Hiromichi Ohta6 (1.IST-Hokudai、2.Jiangsu U.、3.Eng.-Hokudai、4.Pusan Nat'l U.、5.U. Tokyo、6.RIES-Hokudai)

キーワード:Thermal transistor

Very recently, we realized solid-state electrochemical thermal transistors with thermal conductivity (κ) ON/OFF ratio of ~4 by utilizing phase transition of SrCoOx by the redox treatment. In order to further improve the ON/OFF ratio, detailed κ modulation mechanism needs to be clarified. Here, we show that high electronic κ (κele) of perovskite (P) SrCoO3 and low κ of defect perovskite (DP) SrCoO2 are the origins of the rather high ON/OFF ratio. We fabricated several solid-state thermal transistors using SrCo1−xFexOy solid solutions as the active layer. Figure (a) shows changes in the κ of the reduced SrCo1−xFexO2 and the oxidized SrCo1−xFexO3 as a function of x. In the reduced state (y = 2, OFF), κ slightly increases when x exceeds 0.5. On the other hand, in the oxidized state (y = 3, ON), κ drops with x and becomes constant (κ ~2.9 W m−1 K−1). In the case of ON state (oxidized), all SrCo1−xFexOy films belong to P structure and show similar lattice parameter c (Fig. (b)). On the other hand, in the case of OFF state (reduced), DP disappeared when x ≥ 0.5, infinite layer (IL) structure appeared. Thus, DP-to-IL phase transformation occurred when x ≥ 0.5. As shown in Fig. (c), The κele that was calculated by assuming Wiedemann-Franz law gradually decreased with x and keep the similar tendency of κ. This confirmed that high κ of SrCoO3 with high electron contribution and low κ of DP SrCoO2 are the origin of the high ON/OFF.