産総研 電子セラミックスグループ

論文等

  センサ関連論文 (Sensor)

   ・2022年  ・2021年  ・2020年  ・2019年  ・2018年  ・2017年  ・2016年

  材料関連論文  (Material)

   ・2022年  ・2021年  ・2020年  ・2019年  ・2018年  ・2017年  ・2016年

センサ関連論文 (Sensor)

2022年

  1. Highly Sensitive and Selective Gas Sensors Based on NiO/MnO2@NiO Nanosheets to Detect Allyl Mercaptan Gas Released by Humans under Psychological Stress
    C.Y. Li, P.G. Choi, and Y. Masuda
    Advanced Science 9 (2022) 2202442
  2. Atomic step formation on porous ZnO nanobelts: remarkable promotion of acetone gas detection up to the parts per trillion level
    K.S. Kim, P.G. Choi, T. Itoh, and Y. Masuda
    J. Mater. Chem. A 10 (2022) 13839-13847
  3. Recent advances in SnO2 nanostructure based gas sensors
    Y. Masuda
    Sensors & Actuators: B. Chemical 364 (2022) 131876
  4. High performance acetone gas sensor based on ultrathin porous NiO nanosheet
    C.Y. Li, P.G. Choi, K.S. Kim, and Y. Masuda
    Sensors & Actuators: B. Chemical 367 (2022) 132143
  5. Self-Adaptive Gas Sensor System Based on Operating Conditions Using Data Prediction
    K.S. Kim, P. Pornaroontham, P.G. Choi, T. Itoh, and Y. Masuda
    ACS Sens. 7 (2022) 142-150
  6. Effect of oxygen vacancy sites in exposed crystal facet on the gas sensing performance of ZnO nanomaterial
    K.S. Kim, P.G. Choi, T. Itoh, and Y. Masuda
    J Am Ceram Soc. 105 (2022) 2150-2160
  7. Facile synthesis of zinc hydroxyfluoride nanobelt and effect of hexamethylenetetramine for growth direction
    K.S. Kim, C.Y. Li, P.G. Choi, T. Itoh, and Y. Masuda
    J Asian Ceram Soc. 10(4) (2022) 697-702
  8. Morphology control of ZnO nanostructures using Zn and W electrodes in solution plasma process
    K. Kim, S. Chae, Y. Masuda, and N. Saito
    Materials Letters 309 (2022) 131349
  9. Nanosheet-Type Tin Oxide Gas Sensor Array for Mental Stress Monitoring
    P. G. Choi and Y. Masuda
    Sci. Rep. 12 (2022) 13874
  10. Examination of VOC Concentration of Aroma Essential Oils and Their Major VOCs Diffused in Room Air
    Itoh, Y. Masuda, I. Matsubara, J. Arai, and W. Shin
    Int. J. Environ. Res. Public Health 19 (2022) 2904
  11. VOCを簡易測定するには? におい分析評価・対策事例と頻出 Q&A集
    伊藤 敏雄
    におい分析評価・対策事例と頻出 Q&A集(情報機構) (2022/02) 161-163
  12. 運転者の呼気と楽しさの指標
    伊藤 敏雄,佐藤 稔久,申 ウソク
    車載テクノロジー 9(11) (2022) 20-23
  13. 熱電式水素センサを用いた水素漏れ検知とガス濃度計測技術
    申 ウソク,鶴田 彰宏,松原 一郎
    セラミックス 57 (2022) 793-796

2021年

  1. Gas Sensing Properties of High-Purity Semiconducting Single-Walled Carbon Nanotubes for NH3, H2, and NO
    A. Tsuruta, T. Akamatsu, K. Naito, T. Hirai, S. Murase, and Y. Masuda
    ECS Journal of Solid State Science and Technology 10 (2021) 121004
  2. CH3SH and H2S Sensing Properties of V2O5/WO3/TiO2 Gas Sensor
    T. Akamatsu, T. Itoh, A. Tsuruta, and Y. Masuda
    Chemosensors 9 (2021) 113
  3. Effect of Pt electrodes in cerium oxide semiconductor-type oxygen sensors evaluated using alternating current
    T. Itoh, N. Izu, A. Tsuruta, T. Akamatsu, W. Shin, K. Kamihoriuchi, M. Takizawa, and I. Yoshida
    Sens. Actuators B 345 (2021) 130396
  4. Tin Oxide Nanosheet on MEMS Device for Improvement of Gas Discrimination
    P. G. Choi, K. Kim, T. Itoh, and Y. Masuda
    ACS Applied Nano Materials 4 (2021) 14285-14291
  5. Facile synthesis of ZnO nanobullets by solution plasma without chemical additives
    K. Kim, S. Chae, P. G. Choi, T. Itoh, N. Saito, and Y. Masuda
    RSC Advances 11 (2021) 26785-26790
  6. Effect of Coordinatively Unsaturated Sites in MOF-Derived Highly Porous CuO for Catalyst-Free ppb-Level Gas Sensors
    K.S. Kim, P.G. Choi, T. Itoh, and Y. Masuda
    Advanced Materials Interfaces 8 (2021) 2100283
  7. 運転者の呼気と楽しさの指標
    伊藤 敏雄,佐藤 稔久,申 ウソク
    人工知能を用いた五感・認知機能の可視化とメカニズム解明(技術情報協会) (2021/06) 345-352

2020年

  1. 液相結晶成長を用いたガスセンサ用酸化スズナノシートの合成
    崔 弼圭,増田 佳丈
    粉体および粉末冶金 67 (2020) 271-277
  2. 呼気ガスの簡易検知器開発と機械学習によるがん診断への応用
    作村 論一,伊藤 敏雄
    においのセンシング、分析とその可視化、数値化 (2020/10) 458-466
  3. Surface Molecular Separator for Selective Gas Sensing
    P.G. Choi, Z. Liu, N. Hara, and Y. Masuda
    Ind. Eng. Chem. Res. (2020/10) pp.458-466
  4. Effect of Crystal Defect on Gas Sensing Properties of Co3O4 Nanoparticles
    P.G. Choi, T. Fuchigami, K. Kakimoto, and Y. Masuda
    ACS Sensors 5 (2020) 1665-1673
  5. Tin oxide nanosheet thin film with bridge type structure for gas sensing
    P.G. Choi, N. Shirahata, and Y. Masuda
    Thin Solid Films 698 (2020) 137845
  6. Catalyst-Free Highly Sensitive SnO2 Nanosheet Gas Sensors for Parts per Billion-Level Detection of Acetone
    K.S. Kim, P.G. Choi, T. Itoh, and Y. Masuda
    ACS Appl. Mater. Interfaces 12 (2020) 51637-51644
  7. Selective Detection of Target Volatile Organic Compounds in Contaminated Air Using Sensor Array with Machine Learning: Aging Notes and Mold Smells in Simulated Automobile Interior Contaminant Gases
    T. Itoh, Y. Koyama, W. Shin, T. Akamatsu, A. Tsuruta, Y. Masuda, and K. Uchiyama
    Sensors 20 (2020) 2687

2019年

  1. 生活空間のニオイモニタリング技術の開発
    増田 佳丈,伊藤 敏雄
    環境と測定技術 46 (2019) 3-7
  2. SnO2 Nanosheets for Selective Alkene Gas Sensing
    P.G. Choi, N. Izu, N. Shirahata, and Y. Masuda
    ACS Appl. Nano Mater. 2 (2019) 1820-1827
  3. Improvement of sensing properties for SnO2 gas sensor by tuning of exposed crystal face
    P.G. Choi, N. Izu, N. Shirahata, and Y. Masuda
    Sens. Actuators B 296 (2019) 126655
  4. Selective Nonanal Molecular Recognition with SnO2 Nanosheets for Lung Cancer Sensor
    Y. Masuda, K. Kato, M. Kida, and J. Otsuka
    Int. J. Appl. Ceram. Technol. 16 (2019) 1807-1811
  5. Sensor properties of series-connected mixed-potential H2 gas sensor
    T. Akamatsu, T. Itoh, and Y. Masuda
    Sens. Mater. 31 (2019) 1351-1356
  6. Gas sensor properties of nanopore-bearing Co3O4 particles containing Pt or Pd particles
    T. Akamatsu, T. Itoh, Y. Masuda, W. Shin, I. Matsubara, and M. Kida
    J. Asian Ceram. Soc. 8 (2019) 138-148
  7. Breath analysis using a spirometer and volatile organic compound sensor on driving simulator
    T. Itoh, T. Sato, T. Akamatsu and W. Shin
    J. Breath Res. 14 (2019) 016003

2018年

  1. Fabrication and H2-Sensing Properties of SnO2 Nanosheet Gas Sensors
    P.G. Choi, N. Izu, N. Shirahata, and Y. Masuda
    ACS Omega 3 (2018) 14592-14596
  2. バルク応答型ガスセンサの応用
    伊藤 敏雄,伊豆 典哉,赤松 貴文,申 ウソク
    セイフティダイジェスト 64 (2018) 5-10
  3. 半導体式ガスセンサによる呼気分析と統計解析
    伊藤 敏雄,作村 論一
    電気化学 86-Summer (2018) 99-103
  4. Increase in breath hydrogen concentration was correlated with the main pancreatic duct stenosis
    D. Sakai, Y. Hirooka, H. Kawashima, E. Ohno, T. Ishikawa, H. Suhara, T. Takeyama, T. Koya, H. Tanaka, T. Iida, R. Nishio, H. Suzuki, K. Uetsuki, M. Matsushita, T. Yamamura, K. Furukawa, K. Funasaka, M. Nakamura, R. Miyahara, O. Watanabe, M. Ishigami, A. Tsuruta, W. Shin, and H. Goto
    J. Breath Res. 12 (2018) 36004

2017年

  1. 呼気センシングのためのガスセンサデバイス開発
    伊藤 敏雄,申 ウソク
    セラミックス 52 (2017) 547-550
  2. Mixed-Potential Gas Sensors using an Electrolyte Consisting of Zinc Phosphate Glass and Benzimidazole
    T. Akamatsu, T. Itoh, and W. Shin
    Sensors 17 (2017) 97-104
  3. Diagnosis by volatile organic compounds in exhaled breath from lung cancer patients using support vector machine algorithm
    Y. Sakumura, Y. Koyama, H. Tokutake, T. Hida, K. Sato, T. Ito, T. Akamatsu, and W. Shin
    Sensors 17 (2017) 287-299
  4. Relationship between the CO sensing performance of micro-thermoelectric gas sensors and the characteristics of the PtPd/Co3O4 and PtPd/SnO2 catalysts
    T. Goto, T. Itoh, T. Akamatsu, T. Sekino, and W. Shin
    Sens. Actuators B 243 (2017) 847-855
  5. Selective detection of target volatile organic compounds in contaminated humid air using a sensor array with principal component analysis
    T. Itoh, T. Akamatsu, A. Tsuruta, and W. Shin
    Sensors 17 (2017) 1662-1675
  6. Heat transfer control of micro-thermoelectric gas sensor for breath gas monitoring
    T. Goto, T. Itoh, T. Akamatsu, Y. Sasaki, K. Sato, and W. Shin
    Sens. Actuators B 249 (2017) 571-580

2016年

  1. CO sensing properties of Au/SnO2–Co3O4 catalysts on a micro thermoelectric gas sensor
    T. Goto, T. Itoh, T. Akamatsu, N. Izu, and W. Shin
    Sen. Actuators B. 223 (2016) 774-783
  2. Performance of a carbon monoxide sensor based on zirconia-doped ceria
    N. Izu, I. Matsubara, T. Itoh, and W. Shin
    J. Asian Ceram. Soc. 4 (2016) 205-208
  3. Analysis of Recovery Time of Pt-, Pd-, and Au-Loaded SnO2 Sensor Material with Nonanal as Large-Molecular-Weight Volatile Organic Compounds
    T. Itoh, D. Lee, T. Goto, T. Akamatsu, N. Izu, W. Shin, and T. Kasuga
    Sens. Mater. 28 (2016) 1165-1178
  4. Effect of noble metal addition on Co3O4-based gas sensors for selective NO detection
    T. Akamatsu, T. Itoh, N. Izu, and W. Shin
    Sens. Mater. 28 (2016) 1191-1201
  5. Development of an Exhaled Breath Monitoring System with Semiconductive Gas Sensors, a Gas Condenser Unit, and Gas Chromatograph Columns
    T. Itoh, T. Miwa, A. Tsuruta, T. Akamatsu, N. Izu, W. Shin, J. Park, T. Hida, T. Eda, and Y. Setoguchi
    Sensors 16 (2016) 1891

材料関連論文 (Material)

2022年

  1. MgB2 Thin Films Fabricated by Pulsed Laser Deposition Using Nd:YAG Laser in an In Situ Two-Step Process
    T. Ozaki, S. Kikukawa, R. Tanaka, A. Yamamoto, A. Tsuruta, and Y. Tsuchiya
    Condens. Matter 7 (2022) 48
  2. 臨界電流非対称性の向上に向けた超伝導薄膜表面処理プロセスの開発
    鶴田 彰宏,尾崎 壽紀, 土屋 雄司
    低温工学 57 (2022) 368-374
  3. ワイヤレス電力伝送システムに向けた超電導ダイオードの研究開発 ―NEDO 未踏プロジェクトの成果と今後の展望―
    土屋 雄司,尾崎 壽紀,鶴田 彰宏
    低温工学 57 (2022) 349-361
  4. Nd:YAG-PLD 法によるin-situ ポストアニールプロセスを用いたMgB2薄膜の作製
    尾崎 壽紀,菊川 悟志,鶴田 彰宏,土屋 雄司
    低温工学 57 (2022) 362-367
  5. セラミックスナノ構造体の液相合成
    増田 佳丈
    セラミックス 57(1) (2022) 25-29
  6. 水溶液プロセスによる機能性ナノ構造薄膜の創製 (特集 バイオミメティックス)
    増田 佳丈
    粉体および粉末冶金 61(1) (2022) 22-26
  7. Ba1/3CoO2 : A Thermoelectric Oxide Showing a Reliable ZT of ∼0.55 at 600 °C in Air
    X. Zhang, Y. Zhang, L. Wu, A. Tsuruta, M. Mikami, H.J. Cho, and H. Ohta
    ACS Appl. Mater. Interfaces 14 (2022) 33355-33360
  8. Relation between Electronic Structure and Thermoelectric Properties of Heusler-Type Ru2VAl Compounds
    H. Miyazaki, S. Kimura, K. Onishi, T. Hihara, M. Yoshimura, H. Ishii, M. Mikami, and Y. Nishino
    Crystals 12 (2022) 1403
  9. Suppressed atomic diffusion in flash sintering of bismuth telluride
    M. Mikami, H. Miyazaki, and Y. Nishino
    J. Eur. Ceram. Soc. 42 (2022) 4233-4238

2021年

  1. Facet controlled growth mechanism of SnO2 (101) nanosheet assembled film via cold crystallization
    Y. Masuda
    Sci. Rep. 11 (2021) 11304
  2. Low thermal conductivity of SrTiO3-LaTiO3 and SrTiO3-SrNbO3 thermoelectric oxide solid solutions
    Y. Zhang, H.J. Cho, K. Sugo, M. Mikami, S. Woo, M. Jung, Y. Zhuang, B. Feng, Y. Sheu, W. Shin, W.S. Choi, M.J. Han, Y. Ikuhara, and H. Ohta
    J. Am. Ceram. Soc. 104 (2021) 4075-4085
  3. Machine learning based prediction of lattice thermal conductivity for half-Heusler compounds using atomic information
    H. Miyazaki, T. Tamura, M. Mikami, K. Watanabe, N. Ide, O.M. Ozkendir, and Y. Nishino
    Sci. Rep. 11 (2021) 13410
  4. Anomalously Low Heat Conduction in Single-Crystal Superlattice Ceramics Lower Than Randomly Oriented Polycrystals
    H.J. Cho, Y. Wu, Y. Zhang, B. Feng, M. Mikami, W. Shin, Y. Ikuhara, Y. Sheu, K. Saito, and H. Ohta
    Adv. Mater. Interfaces 8 (2021) 2001932

2020年

  1. Development of Na0.5CoO2 Thick Film Prepared by Screen-Printing Process
    A. Tsuruta, M. Tanaka, M. Mikami, Y. Kinemuchi, Y. Masuda, W. Shin, and I. Terasaki
    Materials 13 (2020) 2805
  2. Co-Substitution Effect in Room-Temperature Ferromagnetic Oxide Sr3.1Y0.9Co4O10.5
    A. Tsuruta, S. Kawasaki, M. Mikami, Y. Kinemuchi, Y. Masuda, A. Fujita, and I. Terasaki
    Materials 13 (2020) 2301
  3. Bio-inspired mineralization of nanostructured TiO2 on PET and FTO films with high surface area and high photocatalytic activity
    Y. Masuda
    Scientific Reports 10 (2020) 13449
  4. Ceramic nanostructures of SnO2, TiO2, and ZnO via aqueous crystal growth: cold crystallization and morphology control
    Y. Masuda
    J. Ceram. Soc. Jpn. 128 (2020) 718-737
  5. Nanoarchitectonics of Acicular Nanocrystal Assembly and Nanosheet Assembly for Lithium-Ion Batteries
    Y. Masuda, J. Akimoto, and K. Kato
    J. Nanoscience and Nanotechnology 20 (2020) 3004-3012
  6. Effects of partial substitution by 5d heavy elements on the thermal transport in Fe2VAl thin film
    S. Choi, S. Hiroi, M. Inukai, S. Nishino, R. Sobota, D. Byeon, M. Mikami, M. Matsunami, and T. Takeuchi
    Phys. Rev. B 101 (2020) 104312
  7. Crossover in periodic length dependence of thermal conductivity in 5d element substituted Fe2VAl-based superlattices
    S. Choi, S. Hiroi, M. Inukai, S. Nishino, R. Sobota, D. Byeon, M. Mikami, E. Minamitani, M. Matsunami, and T. Takeuchi
    Phys. Rev. B 102 (2020) 104301
  8. Near-Net-Shape Fabrication of Thermoelectric Legs by Flash Sintering
    M. Mikami, Y. Kinemuchi, K. Kubo, N. Uchiyama, H. Miyazaki, and Y. Nishino
    J. Electron. Mater. 49 (2020) 593-600
  9. フラッシュ焼結による熱電材料の高速作製
    三上 祐史,杵鞭 義明,久保 和哉,内山 直樹,宮崎 秀俊,西野 洋一
    粉体および粉末冶金 67-9 (2020) 478-483
  10. Emerging Atomic Energy Levels in Zero-Dimensional Silicon Quantum Dots
    N. Shirahata, J. Nakamura, J. Inoue, B. Ghosh, K. Nemoto, Y. Nemoto, M. Takeguchi,Y. Masuda, M. Tanaka, and G. A. Ozin
    Nano Lett. 20 (2020) 1491-1498
  11. Improved Brightness and Color Tunability of Solution-Processed Silicon Quantum Dot Light-Emitting Diodes
    H. Yamada, N. Saitoh, B. Ghosh, Y. Masuda, N. Yoshizawa, and N. Shirahata
    J. Phys. Chem. C 124 (2020) 23333-23342

2019年

  1. 金属酸化物ナノ構造体の開発
    増田 佳丈
    鉱山 775 (2019) 7-18
  2. Preparation of Double-Shelled Fluorescent Silicon Nanocrystals and Fabrication of Its Thin Layer by Electrophoretic Deposition Process
    N. Shirahata, T. Uchikoshi, T. K. N. Nguyen, Y. Masuda, and Y. Sakka
    Materials Transactions 60(1) (2019) 49-54

2018年

  1. 液相結晶成長を用いたセラミックスナノ構造体の開発
    増田 佳丈
    粉体および粉末冶金 65 (2018) 616-623
  2. ソフトケミストリーに基づいたナノ構造薄膜の作製
    増田 佳丈,白幡 直人
    セラミックス 53 (2018) 743-747
  3. Formation Mechanism and Dispersion of Pseudo-Tetragonal BaTiO3-PVP Nanoparticles from Different Titanium Precursors: TiCl4 and TiO2
    J. Li, K Inukai, Y. Takahashi, A. Tsuruta, and W. Shin
    Materials 11 (2018) 51
  4. Thin Film Coating with Highly Dispersible Barium Titanate-Polyvinylpyrrolidone Nanoparticles
    J. Li, K Inukai, Y. Takahashi, A. Tsuruta, and W. Shin
    Materials 11 (2018) 712
  5. Trial of an All-Ceramic SnO2 Gas Sensor Equipped with CaCu3Ru4O12 Heater and Electrode
    A. Tsuruta, T. Itoh, M. Mikami, Y. Kinemuchi, I. Terasaki, N. Murayama, and W. Shin
    Materials 11 (2018) 981
  6. Unusually Small Thermal Expansion of Ordered Perovskite Oxide CaCu3Ru4O12 with High Conductivity
    A. Tsuruta, K. Nomura, M. Mikami, Y. Kinemuchi, I. Terasaki, N. Murayama, and W. Shin
    Materials 11 (2018) 1650
  7. Flash-sintering of antimony telluride and its thermoelectric properties
    M. Mikami, Y. Kinemuchi, K. Kubo, N. Uchiyama, H. Miyazaki, and Y. Nishino
    J. Appl. Phys. 124 (2018) 105104

2017年

  1. Microstructure and thermoelectric properties of WSi2-added CrSi2 composite
    M. Mikami and Y. Kinemuchi
    J. Alloys and Compounds 690 (2017) 652-657
  2. Solution-processed TiS2/organics hybrid superlattice film towards flexible thermoelectric devices
    R. Tian, C. Wan, Y. Wang, Q. Wei, T. Ishida, A. Yamamoto, A. Tsuruta, W. Shin, S. Li, and K. Koumoto
    J. Mater. Chem. A 5 (2017) 564-570
  3. High electrical conductivity of composite ceramics consisting of insulating oxide and ordered perovskite conducting oxide
    A. Tsuruta, M. Mikami, Y. Kinemuchi, I. Terasaki, N. Murayama, and W. Shin
    Phys. Status Solidi A 214 (2017) 1600968
  4. Element Strategy Using Ru-Mn Substitution in CuO-CaCu3Ru4O12 Composite Ceramics with High Electrical Conductivity
    A. Tsuruta, M. Mikami, Y. Kinemuchi, I. Terasaki, N. Murayama, and W. Shin
    Crystals 7 (2017) 213
  5. Effect of Core-shell Ceria/Poly(Vinylpyrrolidone) (PVP) Nanoparticles Incorporated in Polymer Films and Their Optical Properties (2):Increasing the Refractive Index
    T. Itoh, T. Uchida, N. Izu, and W. Shin
    Materials 10 (2017) 710
  6. Effect of PVP on the synthesis of high-dispersion core-shell barium-titanate-polyvinylpyrrolidone nanoparticles
    J. Li, K. Inukai, Y. Takahashi, A. Tsuruta, and W. Shin
    J. Asian Ceram. Soc. 5 (2017) 216-225
  7. Synthesis of highly disperse tetragonal BaTiO3 nanoparticles with core-shell by a hydrothermal method
    J. Li, K. Inukai, A. Tsuruta, Y. Takahashi, and W. Shin
    J. Asian Ceram. Soc. 5 (2017) 444-451
  8. Fabrication of thin-film thermoelectric generators with ball lenses for conversion of near-infrared solar light
    Y. Ito, M. Mizoshiri, M. Mikami, T. Kondo, J. Sakurai, and S. Hata
    Jpn. J. Appl. Phys. 56 (2017) 06GN06

2016年

  1. Temperature dependence of electrical transport properties of La4BaCu5-xCoxO13+δ conducting oxide thin films
    A. Tsuruta, Y. Tsujioka, Y. Yoshida, I. Terasaki, N. Murayama, and W. Shin
    Jpn. J. Appl. Phys. 55 (2016) 404EJ08
  2. Rapid synthesis of thermoelectric compounds by laser melting
    Y. Kinemuchi, M. Mikami, I. Terasaki, and W. Shin
    Materials & Design 106 (2016) 30-36
  3. Thermoelectric properties of TiS2 mechanically alloyed compounds
    C. Bourges, T. Barbier, G. Guelou, P. Vaqueiro, A. V. Powell, O. I. Lebedev, N. Barrier, Y. Kinemuchi, and E. Guilmeau
    J. Euro. Ceram. Soc. 36 (2016) 1183-1189
  4. Synthesis and size control of monodispersed BaTiO3-PVP nanoparticles
    J. Li, K. Inukai, Y. Takahashi and W Shin
    J. Asian Ceram. Soc. 4 (2016) 394-402
  5. Fabrication of CuO-based antireflection structures using self-arranged submicron SiO2 spheres for thermoelectric solar generation
    T. Kondo, M. Mizoshiri, M. Mikami, Y. Itou, J. Sakurai, and S. Hata
    Jpn. J. Appl. Phys. 55 (2016) 06GP07
  6. Thickness dependence of thermal conductivity and electron transport properties of Fe2VAl thin-films prepared by RF sputtering technique
    S. Hiroi, M. Mikami, K. Kitahara, and T. Takeuchi
    International Journal of Nanotechnology 13 (2016) 881-890
  7. Thermoelectric Properties of Fe2VAl-Based Thin-Films Deposited at High Temperature
    S. Hiroi, M. Mikami, and T. Takeuchi
    Materials Transactions 57 (2016) 1628-1632
  8. Effect of Off-Stoichiometry on the Thermoelectric Properties of Heusler-Type Fe2VAl Sintered Alloys
    M. Mikami, M. Inukai, H. Miyazaki, and Y. Nishino
    J. Electron. Mater. 45 (2016) 1284-1289
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