学会活動など

・日本セラミックス協会2018年秋季シンポジウム 特定セッションオーガナイザー代表
「複合イオン化合物の創製と機能」
・日本セラミックス協会2020年秋季シンポジウム 特定セッションオーガナイザー代表
「複合イオン化合物の創製とキャラクタリゼーション」
・日本セラミックス協会2023年年会　現地実行委員長
・日本セラミックス協会
・広報委員会　副委員長（2013年6月～2015年5月）
・広報委員会　委員長（2015年6月～2017年5月）
・常任理事（2015年6月～2017年5月）
・関東支部常任幹事（広報委員会　委員長）（2016年6月～現在）
・行事企画委員会　幹事（2018年3月～2021年3月）
・行事企画委員会　主査（2021年4月～2023年3月）

 

　論文

引用数はGoogle Scholarより

2015年以降

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New triclinic perovskite-type oxide Ba5CaFe4O12 for low-temperature operated chemical looping air separation:
Satoshi Ogawa, Sayaka Tamura, Hisanori Yamane, Toyokazu Tanabe, Miwa Saito, Teruki Motohashi, Journal of the American Chemical Society 145, 22788-22795 (2023).
Open Access
プレスリリースはこちら
日刊工業新聞の記事（内容はニュースイッチ参照）　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　客観日本（中国語による研究紹介サイト）の記事
Chem-Station（ケムステ）の記事
科学新聞社 (2023/10/17)、化学工業日報 (2024/01/17) で紹介
DOI: 10.1021/jacs.3c08691

Tin (II)‐Based Metal–Organic Frameworks Enabling Efficient, Selective Reduction of CO2 to Formate under Visible Light:
Yoshinobu Kamakura, Chomponoot Suppaso, Issei Yamamoto, Ryusuke Mizuochi, Yusuke Asai, Teruki Motohashi, Daisuke Tanaka, Kazuhiko Maeda,
Angewandte Chemie International Edition, e202305923 (2023).
DOI: 10.1002/anie.202305923

In-situ infrared spectroscopy analysis of proton-conducting oxy-hydroxides Ba(Zn, M)O2.9-y(OH)2y (M = Ta or W):
Kenji Arai, Yusuke Asai, Yoko Kokubo, Miwa Saito, Miki Inada, Katsuro Hayashi, Teruki Motohashi, Journal of Solid State Chemistry 124026 (2023).
DOI: 10.1016/j.jssc.2023.124026

Highly Durable Bifunctional Gas Diffusion Electrodes Fabricated with Melilite-Type Fe/Co/Ni-Mixed Oxide Electrocatalysts:
Satoshi Ogawa, Kei Nakayama, Misaki Katayama, Ryo Ishikawa, Yuichi Ikuhara, Miwa Saito, and Teruki Motohashi, ACS Applied Energy Materials 5, 15502-15509 (2022).
Selected as Cover Art
DOI: 10.1021/acsaem.2c03084.

Crystalline Metal Oxide Catalysts
Chapter 10.Metal Oxide Catalysts in Relation to Environmental Protection and Energy Conversion:
Saburo Hosokawa and Teruki Motohashi, pp. 301-323.
(Springer, Singapore, 2022)

Atomic-Level Characterization of Oxygen Storage Material YBaCo4O7+δ Synthesized at Low Temperature:
Hsin-Hui Huang, Shunsuke Kobayashi, Toyokazu Tanabe, Kaihei Komiyama, Miwa Saito, Teruki Motohashi, and Akihide Kuwabara, Journal of Materials Chemistry A 10, 23087-23094 (2022).
Selected as Hot Paper
DOI: 10.1039/D2TA03952D.

「原子分解能STEM-EDXによるCa2FeCoO5のFe/Co分布解析」
仲山啓, 石川亮, 本橋輝樹, 幾原雄一,
セラミックス 57, (No. 10), 662-665 (2022).
表紙写真に選定

Dynamic behavior of Pd/Ca2AlMnO5+d for purifying automotive exhaust gases under fluctuating oxygen concentration:
Saburo Hosokawa, Yudai Oshino, Kosuke Beppu, Toyokazu Tanabe, Teruki Motohashi, Hiroyuki Asakura, KentaroTeramura, TsunehiroTanaka, Catalysis Today (2022) in press. 411-412, 113815/1-113815/8 (2023).
DOI: 10.1016/j.cattod.2022.06.030.

「酸素ガス製造応用に向けた酸素貯蔵材料の機能設計」
田村紗也佳, アリシア クリコウィッツ, 齋藤美和, 本橋輝樹,
セラミックス 57, (No. 4), 234-237 (2022).

Proton conductive behaviors of Ba(ZnxNb1−x)O3−δ−y(OH)2y studied by infrared spectroscopy:
Kenji Arai, Miwa Saito, Kyohei Suganami, Miki Inada, Katsuro Hayashi, Teruki Motohashi, Journal of Solid State Chemistry 308, 122913/1-122913/6 (2022).
DOI: 10.1016/j.jssc.2022.122913

Photocatalytic Water Oxidation by Phosphotungstate and Mg-Al Layered Double Hydroxide Hybrid:
Akinobu Miyoshi, Yuto Shimoyama, Hiroto Mogi, Hiroki Ubukata, Naoki Hirayama, Ayu Tanaka, Kenji Arai, Soichiro Morita, Tatsuto Yui, Sayaka Uchida, Teruki Motohashi, Yoshiyuki Inaguma, Hiroshi Kageyama, Kazuhiko Maeda, Chemistry Letters51, 107-110 (2022).
DOI: 10.1246/cl.210621.

Studies on Activation Factors for Oxidative Coupling of Methane over Lithium-based Silicate/Germanate Catalysts:
Tomohiro Matsumoto, Satoshi Ishikawa, Miwa Saito, Wataru Ueda, and Teruki Motohashi, Catalysis Science & Technology 12, 75-83 (2022).
Selected as Back Cover
DOI: 10.1039/D1CY01641E.

Tunable Oxygen Intake/Release Characteristics of Brownmillerite-Type Ca2AlMnO5+δ Involving Atomic Defect Formations:
Tomohiro Iseki, Sayaka Tamura, Miwa Saito, Toyokazu Tanabe, and Teruki Motohashi, ACS Applied Materials & Interfaces 13, 53717-53724 (2021).
DOI: 10.1021/acsami.1c13534.

Improvement of the Oxygen Storage/Release Speed of YBaCo4O7+δ Synthesized by a Glycine-Complex Decomposition Method:
Tingru Chen, Takuya Hasegawa, Yusuke Asakura, Masato Kakihana, Teruki Motohashi, and Shu Yin, ACS Applied Materials & Interfaces 13, 51008-51017 (2021).
DOI: 10.1021/acsami.1c15419.

Electrochemical Crystal Growth of Titanium Oxyfluorides—A Strategy for Development of Electron-Doped Materials:
Yusuke Chiba, Kengo Shibata, Hiroshi Takatsu, Kotaro Fujii, Miwa Saito, Hiroshi Kageyama, Kazuhiko Maeda, Masatomo Yashima, and Teruki Motohashi, Inorganic Chemistry 60, 14613-14621 (2021).
Selected as Cover Art
DOI: 10.1021/acs.inorgchem.1c01640.

Low-Temperature NOx Storage Capability of YBaCo4O7+δ Originating from Large Oxygen Nonstoichiometry:
Hiroshi Okamoto, Takanobu Kajino, Hiroaki Yoto, Kazuki Tamai, Yuji Yoshiyama, Saburo Hosokawa, Tsunehiro Tanaka, Takaki Yamada, Teruki Motohashi, Industrial & Engineering Chemistry Research 60, 9817-9823 (2021).
DOI: 10.1021/acs.iecr.1c01390.

Strong Metal–Support Interaction in Pd/Ca2AlMnO5+δ: Catalytic NO Reduction over Mn-Doped CaO Shell:
Saburo Hosokawa, Yudai Oshino, Toyokazu Tanabe, Hiroaki Koga, Kosuke Beppu, Hiroyuki Asakura, Kentaro Teramura, Teruki Motohashi, Mitsutaka Okumura, Tsunehiro Tanaka, ACS Catalysis 11, 7996-8003 (2021).
DOI: 10.1021/acscatal.1c01559.

Low temperature synthesis of barium oxynitridosilicates using BaCN2 and SiO2:
Yuji Masubuchi, Naoki Sada, Yoshiteru Kawahara, Kenji Arai, Teruki Motohashi, Mikio Higuchi, Dalton Transactions 50, 5883-5889 (2021).
DOI: 10.1039/D1DT00824B.

「精密・広範囲制御された雰囲気中での機能性無機材料の合成」
本橋輝樹, 田村紗也佳, 新井健司, 齋藤美和
セラミックス 56 (No. 8), 540-543 (2021).

Oxygen separation from air by the combined temperature- and pressure-swing processes using oxygen storage materials Y1-x(Tb/Ce)xMnO3+d:
Alicja Klimkowicz, Takao Hashizume, Kacper Cichy, Sayaka Tamura, Konrad Świerczek, Akito Takasaki, Teruki Motohashi, Bogdan Dabrowski, Journal of Materials Science 55, 15653-15666 (2020) .
Open Access
DOI: 10.1007/s10853-020-05158-5

Synthesis of Novel Melilite-Type Iron/Cobalt Oxides and Their Oxygen Evolution Reaction Electrocatalytic Activity:
Satoshi Ogawa, Yasuyo Ogino, Masao Yonemura, Toshiharu Fukunaga, Hisao Kiuchi, Kei Nakayama, Ryo Ishikawa, Yuichi Ikuhara, Yoshihiro Doi, Kenta Suzuki, Miwa Saito, Teruki Motohashi, Chemistry of Materials 32, 6847-6854 (2020).
Selected as Cover Art
DOI: 10.1021/acs.chemmater.0c01010.

A simple and novel effective strategy using mechanical treatment to improve the oxygen uptake/release rate of YBaCo4O7+d for thermochemical cycles:
Tingru Chen, Yusuke Asakura, Takuya Hasegawa, Teruki Motohashi, and Shu Yin, Journal of Materials Science & Technology 68, 8-15 (2020).
DOI: 10.1016/j.jmst.2020.06.043.

“TG-GC” as thermogravimetric and quantitative reacted-gas analyses:
Teruki Motohashi, Yoshiteru Kawahara, Kenji Arai, Kenta Suzuki, and Miwa Saito,
Rigaku Journal 36 (2), 1-5 (2020).

Amorphous High-Surface-Area Aluminum Hydroxide–Bicarbonates for Highly Efficient Methyl
Orange Removal from Water:
Yuki Kinoshita, Yuto Shimoyama, Yoichi Masui, Yoshiteru Kawahara, Kenji Arai, Teruki Motohashi, Yasuto Noda, and Sayaka Uchida, Langmuir 36,6277-6285 (2020).
DOI: 10.1021/acs.langmuir.0c00021.

High Catalytic Activity of Crystalline Lithium Calcium Silicate for Oxidative Coupling of Methane Originated from Crystallographic Joint Effects of Multiple Cations:
Tomohiro Matsumoto, Miwa Saito, Satoshi Ishikawa, Kotaro Fujii, Masatomo Yashima, Wataru Ueda, Teruki Motohashi
ChemCatChem, 12, 1968-1972 (2020).
DOI: 10.1002/cctc.201902241

「“TG-GC” による熱重量・反応ガス定量分析」
本橋輝樹, 河原由輝, 新井健司, 鈴木健太, 齋藤美和
リガクジャーナル 51 (2), 1-5 (2020).

「元素の複合効果を駆使した金属酸化物触媒のメタン酸化カップリング反応活性」
松本知大, 本橋輝樹
ペトロテック43 (8), 530-534 (2020).

熱量測定・熱分析ハンドブック　第3版
5.2.17. 熱重量・反応ガス定量分析法の開発と機能性無機材料への応用－TG-GC－
（丸善株式会社, 2020年)

Activation of Catalytically Active Edge Sharing Domains in Ca2FeCoO5 for Oxygen Evolution Reaction in Highly Alkaline Media:
Damian Kowalski, Hisao Kiuchi, Teruki Motohashi, Yoshitaka Aoki, and Hiroki Habazaki
ACS Applied Materials and Interfaces 11, 28823-28829 (2019).
DOI: 10.1021/acsami.9b06854
(cited 21 times)

Thermogravimetric and desorbed-gas analyses of perovskite-type Ba(ZnxNb1-x)Oy(OH)z:
Miwa Saito, Kenji Arai, Nami Uekusa, Nozomi Tominaga, Teruki Motohashi
Journal of the Ceramic Society of Japan 127, 777-784 (2019).
Editor's Choice, Selected as Cover Art
DOI: 10.2109/jcersj2.19130

Transition-Metal Distribution in Brownmillerite Ca2FeCoO5:
Kei Nakayama, Ryo Ishikawa, Akihide Kuwabara, Shunsuke Kobayashi, Teruki Motohashi, Naoya Shibata, and Yuichi Ikuhara
Inorganic Chemistry 58, 10209-10216(2019).
DOI: 10.1021/acs.inorgchem.9b01356.

Structural design of alkali-metal titanates: electrochemical growth of KxTi8O16, Na2+xTi6O13, and Li2+xTi3O7 single crystals with one-dimensional tunnel structures:
Yusuke Chiba, Daisuke Koizumi, Miwa Saito, and Teruki Motohashi
CrystEngComm 21, 3223-3231 (2019).
DOI: 10.1039/C9CE00362B

La0.7Sr0.3Mn1-xNixO3-δ Electrocatalysts for the 4 Electron Oxygen Reduction Reaction in Concentrated Alkaline Media:
Yoshitaka Aoki, Etsushi Tsuji, Teruki Motohashi, Damian Kowalski, and Hiroki Habazaki,
The Journal of Physical Chemistry C 122, 22301-22308 (2018).
DOI: 10.1021/acs.jpcc.8b06741

Strong Lanthanoid-Substitution Effect on Electrocatalytic Activity of Double-Perovskite-Type BaLnMn2O5 (Ln = Y, Gd, Nd and La) for Oxygen Reduction Reaction: Etsushi Tsuji, Teruki Motohashi, Hiroyuki Noda, Yoshitaka Aoki and Hiroki Habazaki,
The Journal of Physical Chemistry C 122, 7081-7087 (2018).
DOI: 10.1021/acs.jpcc.7b12678

「セラミックスの導電性」
本橋輝樹, CEPRO2018関西, 2018年10月6日, 龍谷大学大阪梅田キャンパス

「物性と評価1：導電性」 本
橋輝樹, セラミックス大学2018 (CEPRO2018), 2018年7月22日, 東京理科大学葛飾キャンパス

Double Chiral Hybrid Materials: Formation of Chiral Phenolic Resins on Polyamine-associated Chiral Silica
Xin-Ling Liu, Seiji Tsunega, Takumi Ito, Maho Takanashi, Miwa Saito, Katsuya Kaikake, and Ren-Hua Jin
Chemistry Letters 46, 1518–1521 (2017).
DOI: 10.1002/chem.201705862

High-Temperature Thermoelectric Properties of Perovskite-Type Pr0.9Sr0.1Mn1−xFexO3 (0 ≤ x ≤ 1)
H. Nakatsugawa, M. Saito, and Y. Okamoto
Journal of Electronic Materials 46, 3262-3272 (2017).

“High-temperature Electrochemical Crystal Growth of Hollandite-Type Cs_xTi₈O₁₆ with Controlled Electronic Properties”
Yusuke Chiba, Miwa Saito, Takeshi Hagiwara, Hiroshi Takatsu, Hiroshi Kageyama, and Teruki Motohashi,
Crystal Growth & Design 17, 5691-5696 (2017).

Brownmillerite-type Ca₂FeCoO₅ as a Practicable Oxygen Evolution Reaction Catalyst
E. Tsuji, T. Motohashi, H. Noda, D. Kowalski, Y. Aoki, H. Tanida, J. Niikura, Y. Koyama, M. Mori, H. Arai, T. Ioroi, N. Fujiwara, Y. Uchimoto, Z. Ogumi, and H. Habazaki,
ChemSusChem 10, 2814-2868 (2017).
Selected as Front Cover
DOI: 10.1002/cssc.201700499
(cited 52 times)

"Preparation and optical property of gallium zinc oxynitride powder and nanocrystals with sawtooth-like appearance"
Atsuo Kamura, Yuji Masubuchi, Teruki Motohashi, and Shinichi Kikkawa,
Materials Research Bulletin 87, 130-134 (2017).

High-Temperature Thermoelectric Properties of Perovskite-Type Pr_0.9Sr_0.1Mn_1−xFe_xO₃(0 ≤x≤ 1)
H. Nakatsugawa, M. Saito, Y. Okamoto
Journal of Electronic Materials 46, 3262-3272 (2017).

「酸素貯蔵材料BaLnMn2O5+δ (Ln = La, Nd, Gd, Y) における酸素吸収放出の熱力学」
本橋輝樹, 熱測定 44, 9-13 (2017).

"Significant lanthanoid substitution effect on the redox reactivity of the oxygen-storage material BaYMn₂O_5+δ"
T. Motohashi, M. Kimura, Y. Masubuchi, S. Kikkawa, J. George, and R. Dronskowski,
Chemistry of Materials 28, 4409-4414 (2016).
(cited 21 times)

"Oxygen storage capability of BaYMn₂O_5+δ studied by high-temperature X-ray diffraction under precisely controlled oxygen pressures"
T. Motohashi, Y. Kubota, H. Kageyama,
SPring-8 Research Frontiers 2015 pp.88-89 (2016).

「新規酸素貯蔵材料の開発と酸素ガス製造・濃縮への応用」
本橋輝樹, 耐火物 68, 554-559 (2016)

Pr1-xSrxMnO3 (0.1≦x≦0.3) とLa1-xSrxFeO3 (0.1≦x≦0.3) のP型熱電特性
中津川博、窪田正照、齋藤美和
日本金属学会誌 79 (11), 597-606 (2015).

Thermoelectric and Magnetic Properties of Pr1-xSrxMnO3 (0.1≦x≦0.7)
H. Nakatsugawa, M. Kubota, and M. Saito
Materials Transactions 56(6), 864-871 (2015).

"P-Type Thermoelectric Properties of Pr_1-xSr_xMnO₃ (0.1 <=x<= 0.3) and La_1-xSr_xFeO₃ (0.1 <=x<= 0.3)"
H. Nakatsugawa, M. Kubota, and M. Saito,
J. Japan Inst. Met. Mater. 79, 597-606 (2015).

"Thermoelectric and Magnetic Properties of Pr_1-xSr_xMnO₃ (0.1 <=x<= 0.7)"
H. Nakatsugawa, M. Kubota, and M. Saito,
Materials Transactions 56, 864-871 (2015).

"Effects of manganese and nickel addition on the preparation of niobium oxynitrides"
Y. Kitahara, Y. Masubuchi, T. Motohashi, and S. Kikkawa,
Journal of the European Ceramic Society 35, 3349-3353 (2015).

"Redox characteristics variations in the cation-ordered perovskite oxides BaLnMn₂O_5+δ (Ln = Y, Gd, Nd, and La) and Ca₂Al_1-xGa_xMnO_5+δ (0 =<x=< 1)"
T. Motohashi, M. Kimura, T. Inayoshi, T. Ueda, Y. Masubuchi, and S. Kikkawa,
Dalton Transactions 44, 10746-10752 (2015).
(cited 19 times)

"Remarkable oxygen intake/release of BaYMn₂O_5+δ viewed from high-temperature crystal structure"
T. Motohashi, T. Takahashi, M. Kimura, Y. Masubuchi, S. Kikkawa, Y. Kubota, Y. Kobayashi, H. Kageyama, M. Takata, S. Kitagawa, and R. Matsuda,
The Journal of Physical Chemistry C 119, 2356-2363 (2015).
(cited 20 times)

"Magnetic properties of the ammonolysis product of alpha-Fe powder containing a small amount of aluminum"
Y. Tsugawa, Y. Masubuchi, T. Motohashi, and S. Kikkawa,
Journal of Solid State Chemistry 222, 111-114 (2015).

"Direct synthesis of BaTaO₂N and CaTaO₂N powders"
S.-K. Sun, Y. Masubuchi, T. Motohashi, and S. Kikkawa,
Journal of European Ceramic Society 35, 3289-3294 (2015).

2014年以前（抜粋）

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"Oxygen intake/release mechanism of double-perovskite type BaYMn₂O_5+δ (0 =<δ=< 1)"
T. Motohashi, T. Ueda, Y. Masubuchi and S. Kikkawa,
The Journal of Physical Chemistry C, 117, 12560-12566 (2013).
(cited 35 times)

"Oxygen storage capability of Brownmillerite-type Ca₂AlMnO_5+δ and its application to oxygen enrichment"
T. Motohashi, Y. Hirano, Y. Masubuchi, K. Oshima, T. Setoyama, and S. Kikkawa,
Chemistry of Materials 25, 372-377 (2013).
(cited 87 times)

「タンタル酸窒化物ペロブスカイトSrTaO2Nの結晶構造と誘電特性」
本橋輝樹, 張　雅茹, 孫　世寛, 鱒渕友治, 吉川信一
セラミックス, 48, (2013) 503-507.

"Remarkable oxygen intake/release capability of BaYMn₂O_5+δ: applications to oxygen storage technologies"
T. Motohashi, T. Ueda, Y. Masubuchi, M. Takiguchi, T. Setoyama, K. Oshima, and S. Kikkawa,
Chemistry of Materials 22, 3192-3196 (2010).
(cited 105 times)

「ダブルペロブスカイト型マンガン酸化物BaYMn2O5+δの酸素貯蔵能」
本橋輝樹, 上田拓, 鱒渕友治, 吉川信一, 滝口真, 瀬戸山亨, 大島一典
燃料電池 10 (No. 1), 145-148 (2010).

"Electronic phase diagram of the layered cobalt oxide system Li_xCoO₂ (0.0 =<x=< 1.0)"
T. Motohashi, T. Ono, Y. Sugimoto, Y. Masubuchi, S. Kikkawa, R. Kanno, M. Karppinen, and H. Yamauchi,
Physical Review B 80, 165114 (2009).
(cited 76 times)

“R-site substitution effect on the oxygen-storage capability of RBaCo₄O_7+δ”
S. Kadota, M. Karppinen, T. Motohashi, and H. Yamauchi,
Chemistry of Materials 20, 6378-6381 (2008).
(cited 104 times)

Uncommon oxygen intake/release capability of layered cobalt oxides, REBaCo₄O_7+δ:
novel oxygen-storage materials:
T. Motohashi, S. Kadota, H. Fjellvåg, M. Karppinen, and H. Yamauchi,
Materials Science and Engineering B 148, 196-198 (2008).
DOI: 10.1016/j.mseb.2007.09.052.
(cited 66 times)

「熱電変換技術ハンドブック」（監修：梶川武信）
第2章　第3節　3. コバルト酸化物の結晶化学本橋輝樹,
（株式会社エヌ・ティー・エス, 2008年）pp. 214-222.

"Synthesis and properties of CoO₂, the x=0 end member of the Li_xCoO₂ and Na_xCoO₂ systems"
T. Motohashi, Y. Katsumata, T. Ono, R. Kanno, M. Karppinen, and H. Yamauchi,
Chemistry of Materials 19, 5063-5066 (2007).
(cited 76 times)

"Oxygen nonstoichiometry in YBaCo₄O_7+δ: Large low-temperature oxygen absorption/desorption capability"
M. Karppinen, H. Yamauchi, S. Otani, T. Fujita, T. Motohashi, Y.-H. Huang, M. Valkeapaa, and H. Fjellvag,
Chemistry of Materials 18, 490-494 (2006).
(cited 198 times)

"Evidence for oxygen vacancies in misfit-layered calcium cobalt oxide, [CoCa₂O₃]_qCoO₂"
M. Karppinen, H. Fjellvag, T. Konno, Y. Morita, T. Motohashi, and H. Yamauchi,
Chemistry of Materials 16, 2790-2793 (2004).
(cited 131 times)

"Oxidation state of cobalt in the Na_xCoO_2-δ y H₂O superconductor"
M. Karppinen, I. Asako, T. Motohashi, and H. Yamauchi,
Chemistry of Materials 16, 1693-1696 (2004).
(cited 72 times)

"Unconventional magnetic transition and transport behavior in Na_0.75CoO₂"
T. Motohashi, R. Ueda, E. Naujalis, T. Tojo, I. Terasaki, T. Atake, M. Karppinen and H. Yamauchi,
Physical Review B 67, 064406 (2003).
(cited 261 times)

"Simultaneously enhanced thermoelectric power and reduced resistivity of Na_xCo₂O₄ by controlling Na nonstoichiometry"
T. Motohashi, E. Naujalis, R. Ueda, K. Isawa, M. Karppinen, and H. Yamauchi,
Applied Physics Letters 79, 1480 (2001).
(cited 215 times)

"Systematic decrease of resistivity anisotropy in Bi₂Sr₂CaCu₂O_y by Pb doping"
T. Motohashi, Y. Nakayama, T. Fujita, K. Kitazawa, J. Shimoyama, and K. Kishio,
Physical Review B 59, 14080 (1999).
(cited 136 times)

 

　招待講演（抜粋）

「物性と評価1：導電性」
本橋輝樹, セラミックス大学2023 (CEPRO2023), 2023年7月8日, オンライン
「物性と評価1：導電性」
本橋輝樹, セラミックス大学2022 (CEPRO2022), 2022年7月9日, オンライン.
「物性と評価1：導電性」
本橋輝樹, セラミックス大学2021 (CEPRO2021), 2021年7月10日, オンライン.

「水系空気電池における酸素還元反応・酸素発生反応触媒の設計と実証」
本橋輝樹, 小川哲志, 齋藤美和, 第411回電池技術委員会講演会, 2022年6月9日, 大田区産業プラザPIO.

“Crystalline lithium calcium silicate as a highly active catalyst for oxidative coupling of methane”
T. Motohashi, in 8th Workshop on Next-Generation Utilization of Natural Gas, Mar. 27, 2021 (online).

「無機材料の開発研究を体験しよう！」
本橋輝樹, 慶應義塾普通部「第23回目路はるか教室」, 2020年11月6日, 慶應義塾普通部.

「結晶構造化学に基づく無機材料の創製：環境・エネルギー応用への将来展望」
本橋輝樹,神大テクノフェスタ2019「くらしと環境の未来－エネルギーの地産地消に向けて－」, 2019年11月8日, 神奈川大学横浜キャンパス.

「物性と評価1：導電性」
本橋輝樹, セラミックス大学2019 (CEPRO2019), 2019年7月20日, 東京理科大学葛飾キャンパス.“

Complex transition-metal oxides as high-performance oxygen evolution reaction electrocatalysts”
T. Motohashi, M. Saito, S. Ogawa, and K. Suzuki, in 22nd International Conference on Solid State Ionics (SSI-22), Jun. 16-21, 2019, PyeongChang, KOREA.

“Complex transition metal oxides towards oxygen-related future applications”
T. Motohashi, in Aalto Symposium on New Functional Materials, Jun. 6-7, 2019, Helsinki, FINLAND.

「セラミックスの導電性」
本橋輝樹, CEPRO2018関西, 2018年10月6日, 龍谷大学大阪梅田キャンパス.

「結晶構造化学を駆使した環境・エネルギー材料の開発」本橋輝樹,
第13回新機能無機物質探索研究センター・シンポジウム講演会,
2018年7月31日, 東北大学多元物質科学研究所.

「物性と評価1：導電性」
本橋輝樹, セラミックス大学2018 (CEPRO2018), 2018年7月22日, 東京理科大学葛飾キャンパス.

「無機材料開発研究の現在と未来」
本橋輝樹, 慶應義塾大学「理工学概論」, 2018年5月9日, 慶應義塾大学　日吉キャンパス.

「遷移金属酸化物における酸素貯蔵材料の開発：磁性材料に隠された環境・エネルギー関連機能性」本橋輝樹,
第5回元素戦略に基づいた触媒設計シンポジウム, 2017年12月1日, 首都大学東京　秋葉原サテライトキャンパス.

"Remarkable energy-related functionalities hidden in strongly-correlated magnetic materials"
T. Motohashi, in 25th Annual Meeting of MRS-Japan 2015, Dec. 9, 2015, Yokohama, JAPAN.