Spectroscopic Study of TiOx Film for Novel n-type Semiconductor/insulator/p-type Semiconductor Rechargeable Device
We have demonstrated a novel semiconductor rechargeable battery (capacitor-like device), which uses electrons, holes and no mobile ions, having a TiOx/SiNy/NiOz laminated structure with a capacity 5000 times larger than that of a conventional parallel plate capacitor. In this study, photoluminescenc...
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The Electrochemical Society of Japan
2020-05-01
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doaj-d3626cb7b4c14b2d86ccd4b596e38a822021-09-02T07:55:06ZengThe Electrochemical Society of JapanElectrochemistry2186-24512020-05-0188324024210.5796/electrochemistry.19-00071electrochemistrySpectroscopic Study of TiOx Film for Novel n-type Semiconductor/insulator/p-type Semiconductor Rechargeable DeviceHidehiko YABUHARA0Akito SASAKI1Yoshinori KATAOKA2Koji SUZUKI3Takahiro ITO4Shigeyuki TAKAGI5Hideaki HIRABAYASHI6Corporate Manufacturing Engineering Center, Toshiba Corp.Toshiba Material Co., Ltd.Toshiba Material Co., Ltd.Toshiba Material Co., Ltd.Geomatec Co., Ltd.School of Engineering, Tokyo University of TechnologyToshiba Material Co., Ltd.We have demonstrated a novel semiconductor rechargeable battery (capacitor-like device), which uses electrons, holes and no mobile ions, having a TiOx/SiNy/NiOz laminated structure with a capacity 5000 times larger than that of a conventional parallel plate capacitor. In this study, photoluminescence, cathodoluminescence and Raman spectroscopy of TiOx (x = 1.92, 2.00 and 2.04) films were carried out. We showed some correlations between these spectroscopic characteristics of TiOx having different oxygen compositions and the capacitor performance of a TiOx/SiNy/NiOz laminated structure.https://www.jstage.jst.go.jp/article/electrochemistry/88/3/88_19-00071/_pdf/-char/enbatterycapacitortitanium oxidephotoluminescence |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Hidehiko YABUHARA Akito SASAKI Yoshinori KATAOKA Koji SUZUKI Takahiro ITO Shigeyuki TAKAGI Hideaki HIRABAYASHI |
spellingShingle |
Hidehiko YABUHARA Akito SASAKI Yoshinori KATAOKA Koji SUZUKI Takahiro ITO Shigeyuki TAKAGI Hideaki HIRABAYASHI Spectroscopic Study of TiOx Film for Novel n-type Semiconductor/insulator/p-type Semiconductor Rechargeable Device Electrochemistry battery capacitor titanium oxide photoluminescence |
author_facet |
Hidehiko YABUHARA Akito SASAKI Yoshinori KATAOKA Koji SUZUKI Takahiro ITO Shigeyuki TAKAGI Hideaki HIRABAYASHI |
author_sort |
Hidehiko YABUHARA |
title |
Spectroscopic Study of TiOx Film for Novel n-type Semiconductor/insulator/p-type Semiconductor Rechargeable Device |
title_short |
Spectroscopic Study of TiOx Film for Novel n-type Semiconductor/insulator/p-type Semiconductor Rechargeable Device |
title_full |
Spectroscopic Study of TiOx Film for Novel n-type Semiconductor/insulator/p-type Semiconductor Rechargeable Device |
title_fullStr |
Spectroscopic Study of TiOx Film for Novel n-type Semiconductor/insulator/p-type Semiconductor Rechargeable Device |
title_full_unstemmed |
Spectroscopic Study of TiOx Film for Novel n-type Semiconductor/insulator/p-type Semiconductor Rechargeable Device |
title_sort |
spectroscopic study of tiox film for novel n-type semiconductor/insulator/p-type semiconductor rechargeable device |
publisher |
The Electrochemical Society of Japan |
series |
Electrochemistry |
issn |
2186-2451 |
publishDate |
2020-05-01 |
description |
We have demonstrated a novel semiconductor rechargeable battery (capacitor-like device), which uses electrons, holes and no mobile ions, having a TiOx/SiNy/NiOz laminated structure with a capacity 5000 times larger than that of a conventional parallel plate capacitor. In this study, photoluminescence, cathodoluminescence and Raman spectroscopy of TiOx (x = 1.92, 2.00 and 2.04) films were carried out. We showed some correlations between these spectroscopic characteristics of TiOx having different oxygen compositions and the capacitor performance of a TiOx/SiNy/NiOz laminated structure. |
topic |
battery capacitor titanium oxide photoluminescence |
url |
https://www.jstage.jst.go.jp/article/electrochemistry/88/3/88_19-00071/_pdf/-char/en |
work_keys_str_mv |
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