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研究業績:論文

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  1. 武藤俊介, 志賀元紀, 顕微鏡 55, 60-64 (2020).
    "スペクトラムイメージデータのノイズ処理と信号抽出の最近の進展"
    DOI: 10.11410/kenbikyo.55.2_60
    2020.08.31; 計画A03
  2. Ryo Kobayashi*, Yasuhiro Miyaji, Koki Nakano, Masanobu Nakayama, APL Mater. 8, 081111 (2020).
    "High-throughput production of force-fields for solid-state electrolyte materials"
    DOI: 10.1063/5.0015373
    2020.08.26; 計画A03,公募A03
  3. A. Kumatani, T. Matsue, Curr. Opin. Electrochem., published online.
    "Recent Advances in Scanning Electrochemical Microscopic Analysis and Visualization on Lithium-ion Battery Electrodes"
    DOI: 10.1016/j.coelec.2020.07.010
    2020.08.17; 計画A02
  4. Takayuki Yamamoto, Hinata Shiba, Naohiro Mitsukuchi, Manoj Krishna Sugumar, Munekazu Motoyama, Yasutoshi Iriyama, Inorg. Chem. 59, 11901-11904 (2020).
    "Synthesis of the Metastable Cubic Phase of Li2OHCl by a Mechanochemical Method"
    DOI: 10.1021/acs.inorgchem.0c01631
    2020.08.12; 計画A01
  5. Kan Hatakeyama-Sato, *Kenichi Oyaizu, Commun. Mater. 1, article number: 49 (2020).
    "Integrating multiple materials science projects in a single neural network"
    DOI: 10.1038/s43246-020-00052-8
    2020.07.30; 公募A04
  6. *Munekazu Motoyama, Masaharu Hirota, Takayuki Yamamoto, Yasutoshi Iriyama, ACS Appl. Mater. Interfaces 12, 38045-38053 ( 2020).
    "Temperature Effects on Li Nucleation at Cu/LiPON Interfaces"
    DOI: 10.1021/acsami.0c02354
    2020.07.24; 公募A01
  7. M. Harada, H. Takeda, S. Suzuki, K. Nakano, N. Tanibata, M. Nakayama, M. Karasuyama, I. Takeuchi, J. Mater. Chem. A 8, 15103–15109 (2020).
    "Bayesian-optimization-guided experimental search of NASICON-type solid electrolytes for all-solidstate Li-ion batteries"
    DOI: 10.1039/D0TA04441E
    2020.07.23; 計画A03
  8. *Makina Saito, Yohei Onodera, Koji Ohara, Masayuki Kurokuzu, Yoshitaka Yoda, Makoto Seto, Phys. Status Solidi B (2020). published online.
    "Dynamics Study of Superionic Conducting Glass Na3PS4 Using Quasi‐Elastic Gamma‐Ray Scattering: Analysis Based on Diffraction and Reverse Monte Carlo–Density Functional Theory Modeling"
    DOI: 10.1002/pssb.202000113
    2020.07.23; 計画A02
  9. Motoyuki Hamaguchi, Hiroyoshi Momida, Ayuko Kitajou, Shigeto Okada, Tamio Oguchi, Electrochimica Acta 354, 136630 (2020).
    "Suppression of O-redox reactions by multivalent Cr in Li-excess Li2.4M0.8M’0.8O4 (M, M’= Cr, Mn, and Ti) cathodes with layered and cation-disordered rock-salt structures"
    DOI: 10.1016/j.electacta.2020.136630
    2020.07.13; 計画A04
  10. Y. Takahashi, T. Yamashita, D. Takamatsu, A. Kumatani, T. Fukuma, Chem. Comm. 56, 9324-9327 (2020).
    "Nanoscale kinetic imaging of lithium ion secondary battery materials using scanning electrochemical cell microscopy"
    DOI: 10.1039/D0CC02865G
    2020.07.07; 計画A02
  11. Kan Hatakeyama-Sato, Momoka Umeki, Toshiki Tezuka, *Kenichi Oyaizu, ACS Appl. Electron. Mater. 2, 2211-2217 (2020).
    "Charge-transfer complexes for solid-state Li+ conduction"
    DOI: 10.1021/acsaelm.0c00393
    2020.07.06; 公募A04
  12. Ryoichi Tatara, So Nishimura, Yukihiro Okamoto, Kazuhide Ueno, Masayoshi Watanabe, Kaoru Dokko*, J. Phys. Chem. C 124, 15800−15811 (2020).
    "Structures and Electrochemistry of γ-Butyrolactone Solvates of Na Salts"
    DOI: 10.1021/acs.jpcc.0c04161
    2020.06.30; 計画A01
  13. *Daisuke Kan, Masaichiro Mizumaki, Miho Kitamura, Yoshinori Kotani, Yufan Shen, Ikumi Suzuki, Koji Horiba, Yuichi Shimakawa, Phys. Rev. B 101, 224434 (2020).
    "Spin and orbital magnetic moments in perpendicularly magnetized Ni1−xCo2+yO4−z epitaxial thin films: Effects of site-dependent cation valence states"
    DOI: 10.1103/PhysRevB.101.224434
    2020.06.26; 計画A04
  14. *N. Tanibata, S. Takimoto, K. Nakano, H. Takeda, M. Nakayama, H. Sumi, ACS Mater. Lett. 2, 880-886 (2020).
    "Metastable chloride solid electrolyte with high formability for rechargeable all-solid-state lithium metal batteries"
    DOI: 10.1021/acsmaterialslett.0c00127
    2020.06.23; 計画A03
  15. *Koji Ohara, Atsushi Sakuda, Akitoshi Hayashi, Encyclopedia of Materials: Technical Ceramics and Glasses (2020).
    "Development, Structure, and Mechanical Properties of Sulfide Solid Electrolytes"
    DOI: 10.1016/B978-0-12-803581-8.12133-2
    2020.06.17; 計画A02,計画A04
  16. *Koji Ohara, Naoya Masuda, Hiroshi Yamaguchi, Atsushi Yao, Satoshi Tominaka, Hiroki Yamada, Satoshi Hiroi, Masakuni Takahashi, Kentaro Yamamoto, Toru Wakihara, Yoshiharu Uchimoto, *Futoshi Utsuno, Shigeru Kimura, Phys. Status Solidi B (2020). published online.
    "Observation of Liquid Phase Synthesis of Sulfide Solid Electrolytes Using Time‐Resolved Pair Distribution Function Analysis"
    DOI: 10.1002/pssb.202000106
    2020.06.15; 計画A02
  17. Yuji Ishado, Hirona Hasegawa, Shigeto Okada, Minoru Mizuhata, Hideshi Maki, Masaki Matsui, Chem.Commun. 56, 8107-8110 (2020).
    "An experimental and first-principle investigation of the Ca-substitution effect on P3-type layered NaxCoO2"
    DOI: 10.1039/d0cc01675f
    2020.06.09; 計画A01
  18. Ikumi Suzuki, *Daisuke Kan, Miho Kitamura, Yufan Shen, Koji Horiba, Yuichi Shimakawa, J. Appl. Phys. 127, 203903 (2020).
    "Influence of oxygen vacancies on magnetic properties of perpendicularly magnetized NiCo2O4 epitaxial thin films"
    DOI: 10.1063/5.0008173
    2020.05.26; 計画A04
  19. T. Ando, A. Sakuda, M. Tatsumisago, *A. Hayashi, Electrochem. Commun. 116, 106741 (2020).
    "All-solid-state sodium-sulfur battery showing full capacity with activated carbon MSP20-sulfur-Na3SbS4 composite"
    DOI: 10.1016/j.elecom.2020.106741
    2020.05.07; 計画A04
  20. Manoj Krishna Sugumar, Takayuki Yamamoto, Munekazu Motoyama, Yasutoshi Iriyama, Solid State Ionics 349, 115298 (2020).
    "Room temperature synthesis of anti-perovskite structured Li2OHBr"
    DOI: 10.1016/j.ssi.2020.115298
    2020.04.29; 計画A01
  21. K. Nakano, Y. Noda, N. Tanibata, H. Takeda, *M. Nakayama, *R. Kobayashi, I. Takeuchi, APL Mater. 8, 041112 (2020).
    "Exhaustive and Informatics-Aided Search for Fast Li-Ion Conductor with NASICON-Type Structure Using Material Simulation and Bayesian Optimization"
    DOI: 10.1063/5.0007414
    2020.04.15; 計画A03,公募A03
  22. 山本 貴之, 本山 宗主, 入山 恭寿, 粉体および粉末冶金,第67巻第4号, 200-207 (2020).
    "エアロゾルデポジション法を活用した酸化物全固体電池の研究開発"
    DOI: https://doi.org/10.2497/jjspm.67.200
    2020.04.15; 計画A01
  23. *本山 宗主, 山本 貴之, 入山 恭寿, 応用物理 89, 213-217 (2020).
    "全固体Li電池の高性能化に向けた固体電解質の短絡機構の解明"
    DOI: 10.11470/oubutsu.89.4_213
    2020.04.10; 計画A01
  24. Z. Yang, R. Ward, N. Tanibata, H. Takeda, *M. Nakayama, T. Asaka, J. Phys. Chem. C 124, 9746–9754 (2020).
    "Arrangement in La1/3NbO3 Obtained by First-Principles Density Functional Theory with Cluster Expansion and Monte Carlo Simulation"
    DOI: 10.1021/acs.jpcc.0c01350
    2020.04.10; 計画A03
  25. *尾原 幸治, 全固体電池の界面抵抗低減と作製プロセス, 評価技術 第10章第3節, 315-321 (2020).
    "放射光X線回折を用いた硫化物ガラスの結晶化過程の観察"
    URL:http://www.gijutu.co.jp/doc/b_2048.htm
    2020.03.31; 計画A02
  26. Bo Gao, Randy Jalem, *Yoshitaka Tateyama, ACS Appl. Mater. Interfaces 12, 16350-16358 (2020).
    "Surface-Dependent Stability of the Interface between Garnet Li7La3Zr2O12 and the Li Metal in the All-Solid-State Battery from First-Principles Calculations"
    DOI: 10.1021/acsami.9b23019
    2020.03.27; 計画A03
  27. Yuki Kobayashi, Miho Sawamura, Sayaka Kondo, Maho Harada, Yusuke Noda, Masanobu Nakayama, Sho Kobayakawa, Wenwen Zhao, Aiko Nakao, Akira Yasui, Hongahally Basappa Rajendra, Keisuke Yamanaka,Toshiaki Ohta, Naoaki Yabuuchi, Materials Today 37, 43-55 (2020).
    "Activation and stabilization mechanisms of anionic redox for Li storage applications: Joint experimental and theoretical study on Li2TiO3–LiMnO2 binary system"
    DOI: 10.1016/j.mattod.2020.03.002
    2020.03.25; 計画A03,計画A04
  28. *Munekazu Motoyama, Hiroki Iwasaki, Miyuki Sakakura, Takayuki Yamamoto, Yasutoshi Iriyama, Int. J. Mater. Res. 111, 1-9 (2020).
    "Synthesis of LiCoO2 particles with tunable sizes by a urea-based-homogeneous-precipitation method"
    DOI: 10.3139/146.111892
    2020.03.20; 計画A01
  29. *本山 宗主, 山本 貴之, 入山 恭寿, 工業材料 68, 41-46 (2020).
    "酸化物系全固体Li電池におけるLi金属負極の課題"
    https://pub.nikkan.co.jp/uploads/magazine_introduce/pdf_5e6f2afeb0ad4-6.pdf
    2020.03.14; 計画A01
  30. T. Sudayama, K. Uehara, T. Mukai, D. Asakura, X.-M. Shi, A. Tsuchimoto, B. Mortemard de Boisse, T. Shimada, E. Watanabe, Y. Harada, M. Nakayama, M. Okubo, A. Yamada, Energy Environ. Sci. 13, 1492-1500 (2020).
    "Multiorbital Bond Formation for Stable Oxygen-Redox Reaction in Battery Electrodes"
    DOI: 10.1039/C9EE04197D
    2020.03.12; 計画A03,計画A04
  31. Takeshi Baba, Keitaro Sodeyama, Yoshiumi Kawamura, *Yoshitaka Tateyama, Phys. Chem. Chem. Phys. 22, 10764-10774 (2020).
    "Li-ion transport at the interface between a graphite anode and Li2CO3 solid electrolyte interphase: ab initio molecular dynamics study"
    DOI: 10.1039/C9CP06608J
    2020.03.11; 計画A03
  32. Yosuke Ugata, Ryoichi Tatara, Kazuhide Ueno, Kaoru Dokko, Masayoshi Watanabe, J. Chem. Phys. 152, 104502 (2020).
    "Highly concentrated LiN(SO2CF3)2/dinitrile electrolytes: Liquid structures, transport properties, and electrochemistry"
    DOI: 10.1063/1.5145340
    2020.03.11; 計画A01
  33. Yufan Shen, *Daisuke Kan, Zhenhong Tan, Yusuke Wakabayashi, Yuichi Shimakawa, Phys. Rev. B 101, 094412 (2020).
    "Tuning of ferrimagnetism and perpendicular magnetic anisotropy in NiCo2O4 epitaxial films by the cation distribution"
    DOI: 10.1103/PhysRevB.101.094412
    2020.03.11; 計画A04
  34. Makoto Hirose, Kei Shimomura, Takaya Higashino, Nozomu Ishiguro, *Yukio Takahashi, J. Synchrotron Radiat. 27, 455-461 (2020).
    "Nanoscale determination of interatomic distance by ptychography-EXAFS method using advanced Kirkpatrick–Baez mirror focusing optics"
    DOI: 10.1107/S1600577519017004
    2020.03.06; 計画A02
  35. 中山 将伸, 中野 高毅, 電気化学 88, 21-27 (2020).
    "データ科学と第一原理計算を活用した蓄電池用固体電解質の物性評価"
    DOI: 10.5796/denkikagaku.20-FE0005
    2020.03.05; 計画A03
  36. *Yusuke Noda, Masanari Otake, *Masanobu Nakayama, Sci. Technol. Adv. Mater. 21, 92-99 (2020).
    "Descriptors for dielectric constants of perovskite-type oxides by materials informatics with first-principles density functional theory"
    DOI: 10.1080/14686996.2020.1724824
    2020.02.25; 計画A03
  37. *Hayami Takeda, Koki Nakano, Naoto Tanibata, Masanobu Nakayama, Sci. Technol. Adv. Mater. 21, 131-138 (2020).
    "Novel Mg-ion conductive oxide of μ-cordierite Mg0.6Al1.2Si1.8O6"
    DOI: 10.1080/14686996.2020.1730237
    2020.02.20; 計画A03
  38. *Masanobu Nakayama, Kunihiro Ishida, Kentaro Watanabe, Naoto Tanibata, Hayami Takeda, *Hirotaka Maeda, Toshihiro Kasuga, ACS Omega 5, 4083-4089 (2020).
    "First-Principles Density Functional Theory Calculations for Formic Acid Adsorption onto Hydro-Garnet Compounds"
    DOI: 10.1021/acsomega.9b03746
    2020.02.19; 計画A03
  39. *Naoto Tanibata, Riku Morimoto, Kei Nishikawa, Hayami Takeda, Masanobu Nakayama, Anal. Chem. 92, 3499-3502 (2020).
    "Asymmetry in the solvation-desolvation resistance for Li metal batteries"
    DOI: 10.1021/acs.analchem.9b05321
    2020.02.06; 計画A03
  40. Yukihiro Okamoto, Seiji Tsuzuki, Ryoichi Tatara, Kazuhide Ueno, *Kaoru Dokko, and Masayoshi Watanabe, J. Phys. Chem. C 124, 4459–4469 (2020).
    "High Transference Number of Na Ion in Liquid-State Sulfolane Solvates of Sodium Bis(fluorosulfonyl)amide"
    DOI: 10.1021/acs.jpcc.9b11458
    2020.01.31; 計画A01
  41. 中野 高毅, 中山 将伸, 分離技術 50, 11-17 (2020)
    "全固体電池の開発におけるイオン伝導性セラミックスの材料探索"
    URL: http://www.sspej.gr.jp/assets/files/Publishing/Bunrigizyutsu/mokuji273_50-1.pdf
    2020.01.31; 計画A03
  42. Taiki Yamada, Masahiro Ohtsuka, Yoshimasa Takahashi, Haruhiko Yoshino, Shin-ichi Amma, *Shunsuke Muto, Materialia 9, 100578 (2020).
    "Measurement of nanoscale local stress distribution in phase-separated glass using scanning transmission electron microscopy-cathodoluminescence"
    DOI: 10.1016/j.mtla.2019.100578
    2020.01.23; 計画A03
  43. Makoto Hirose, Takaya Higashino, Nozomu Ishiguro, *Yukio Takahashi, Optics Express 28, 1216-1224 (2020).
    "Multibeam ptychography with synchrotron hard X-rays"
    DOI: 10.1364/OE.378083
    2020.01.20; 計画A02
  44. M. H. N. Assadi, Masashi Okubo, Atsuo Yamada, and *Yoshitaka Tateyama, Phys. Rev. Mater. 4, 015401 (2020).
    "Possible high-potential ilmenite type Na1MO3 (M=V–Ni) cathodes realized by dominant oxygen redox reaction"
    DOI: 10.1103/PhysRevMaterials.4.015401
    2020.01.02; 計画A03
  45. *A. Hayashi, N. Masuzawa, S. Yubuchi, F. Tsuji, C. Hotehama, A. Sakuda and M. Tatsumisago, Nat. Commun. 10, 5266 (2019).
    "A sodium-ion sulfide solid electrolyte with unprecedented conductivity at room temperature"
    DOI: 10.1038/s41467-019-13178-2
    2019.11.20; 計画A04
  46. Bo Gao, Randy Jalem, Yanming Ma, *Yoshitaka Tateyama, Chem. Mater. 32, 85-96 (2020).
    "Li+ Transport Mechanism at the Heterogeneous Cathode/Solid Electrolyte Interface in an All-Solid-State Battery via the First-Principles Structure Prediction Scheme"
    DOI: 10.1021/acs.chemmater.9b02311
    2019.11.20; 計画A03
  47. *Shunsuke Muto, Motoki Shiga, Microscopy 69, 110–122 (2020).
    "Application of machine-learning techniques to electron microscopic/spectroscopic image data analysis"
    DOI: 10.1093/jmicro/dfz036
    2019.11.12; 計画A03
  48. Ryota Tamate, Aya Saruwatari, Azusa Nakanishi, Yoshiharu Matsumae, Kazuhide Ueno, Kaoru Dokko, *Masayoshi Watanabe, Electrochem. Commun. 109, 106598 (2019).
    "Excellent dispersibility of single-walled carbon nanotubes in highly concentrated electrolytes and application to gel electrode for Li-S batteries"
    DOI: 10.1016/j.elecom.2019.106598
    2019.11.06; 計画A01
  49. *Motoki Shiga, Shunsuke Muto, e-J. Surf. Sci. Nanotech. 17, 148-154 (2019).
    "Non-negative matrix factorization and its extensions for spectral image data analysis"
    DOI: 10.1380/ejssnt.2019.148
    2019.09.21; 計画A03
  50. *Yuta Yamamoto, Yasutoshi Iriyama, Shunsuke Muto, J. Amer. Cer. Soc. 103, 1454-1462 (2020).
    "STEM-EELS Analysis of the Interface Structures of Composite ASS-LIB Electrodes fabricated by Aerosol Deposition"
    DOI: 10.1111/jace.16813
    2019.09.21; 計画A01,計画A03
  51. Tokio Kobayashi, Wenwen Zhao, Hongahally Basappa Rajendra, Keisuke Yamanaka, Toshiaki Ohta, Naoaki Yabuuchi, Small 15, 1902462 (2019).
    "Nanosize Cation-Disordered Rocksalt Oxides:Na2TiO3–NaMnO2 Binary System"
    DOI: 10.1002/smll.201902462
    2019.09.04; 計画A04
  52. Munekazu Motoyama, Yuki Tanaka, Takayuki Yamamoto, Nobuo Tsuchimine, Susumu Kobayashi, Yasutoshi Iriyama, ACS Appl. Ener. Mater. 2, 6720-6731 (2019).
    "The Active Interface of Ta-Doped Li7La3Zr2O12 for Li Plating/Stripping Revealed by Acid Aqueous Etching"
    DOI: 10.1021/acsaem.9b01193
    2019.08.08; 計画A01
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