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Publication and Review

 

Bold indicates Mizoguchi Lab. member.

 Bold indicates Mizoguchi Lab. member

  1. S. Lee, K. Shibata, D. Bae, and T. Mizoguchi
    submitted

  2. I. Takahara, K. Shibata, and T. Mizoguchi
    submitted

— 2024 —

  1. “Band structure database of layered intercalation compounds with various intercalant atoms and layered hosts” N. KawaguchiK. Shibata, and T. Mizoguchi
    Scientific Data, (2024) in press.

  2. “Predicting ELNES/XANES spectra by Machine Learning with Atomic Coordinate-independent Descriptor and Further application to ground state electronic structure”
    PY Chen, K. Shibata, K. Hagita, T. Miyata, and T. Mizoguchi
    Micron, 187 (2024) 103723-1-7.

  3. 「ELNESの理論計算と機械学習」
    柴田基洋溝口照康
    顕微鏡,Vol.59, No.2,74-81.

  4. “Toward the Atomic-Level Analysis of Ground-State Electronic Structures of Solid Materials via Prediction from Core-Loss Spectra: A Computational Study in Si”
    I. Takahara, F. Uesugi, K. Kimoto, K. Shibata, and T. Mizoguchi
    The Journal of Physical Chemistry C, 128 (2024), 13500-13507. [here]

  5. “Crystal orbital overlap population based on all-electron ab initio simulation with numeric atom-centered orbitals and its application to chemical-bonding analysis in Li-intercalated layered materials”
    I. Takahara, K. Shibata, and T. Mizoguchi
    Modelling and Simulation in Materials Science and Engineering (MSMSE), 32 (2024), 055028-1-20. [here]

  6. “Microscopic chemical characterization of epoxy resin with scanning transmission electron microscopy – electron energy-loss spectroscopy”
    H. Huang, T. Miyata, Y. Sato, T. Mizoguchi, H. Jinnai, and K. Yoshida
    Micron 180 (2024) 103623-1-8 [here]

  7. “Effect of inorganic material surface chemistry on structures and fracture behaviours of epoxy resin”
    T. Miyata, YK. Sato, Y. Kawagoe, K. Shirasu, HF. Wang, A. Kumagai, S. Kinoshita, M. Mizukami, K. Yoshida, H.H. Huang, T. Okabe, K. Hagita, T. Mizougchi, and H. Jinnai Nature Comm., 15 (2024), 1898-1-10 . [here]

  8. “Unraveling the Stability of Layered Intercalation Compounds through First-Principles Calculations: Establishing a Linear Free Energy Relationship with Aqueous Ions”
    N. Kawaguchi, K. Shibata, and T. Mizoguchi
    ACS Physical Chemistry Au, 4 (2024), 281-291. [here]

  9. “Lightweight and high-precision materials property prediction using pre-trained Graph Neural Networks and its application to a small dataset”
    K. Nishio, K. Shibata, and T Mizoguchi
    Appl. Phys. Exp. 17 (2024) 037002-1-5 [here]

  10. “Combinatorial characterization of metastable luminous silver cations”
    H. Masai, M. Koshimizu, H. Kawamoto, S. Maruyama, Y. Matsumoto, C. Takahashi, H. Setoyama, and T. Mizoguchi
    Scientific Reports 14 (2024), 4638-1-10 [here]

  11. “Atomistic Probing of Defect-Engineered 2H-MoTe2 Monolayers”
    O. Okello, SY. Seo, J. Park, DH. Yang, D. Shin, YS. Chu, S. Yang, T. Mizoguchi, MH. Jo; SY. Choi
    ACS nano 18, (2024) 6927-6935 [here]

  12. “LCAONet: Message-passing with physically optimized atomic basis functions”
    K. Nishio, K. Shibata and **T. Mizoguchi
    **arXiv preprint arXiv:2402.05634 (2024) [here]

  13. “Full automation of point defect detection in transition metal dichalcogenides through a dual mode deep learning algorithm”
    Dong-Hwan Yang, Yu-Seong Chu, Odongo Francis Ngome Okello, Seung-Young Seo, Gunho Moon, Kwang Ho Kim, Moon-Ho Jo, Dongwon Shin, Teruyasu Mizoguchi, Sejung Yang, Si-Young Choi**
    **Materials Horizons, 11 (2024), 747-757 [here]

  14. “A message passing neural network for predicting dipole moment dependent core electron excitation spectra”
    K. Shibata and **T. Mizoguchi
    **Digital Discovery, 3 (2024), 649-653 [here]

— 2023 —

  1. 「機械学習を利用した電子・X線分光からの物性予測」
    溝口照康
    科学と工業,12月号 in press

  2. 「機械学習を活用した界面および表面の構造解析と物性予測」
    溝口照康
    セラミックス,58, 11 (2023), 732-736.

  3. “A lithium superionic conductor for millimeter-thick battery electrode”
    Y. Lee, S. Song, H. Kim, K. Nomoto, H. Kim, X. Sun, S. Hori, K. Suzuki, N. Matsui, M. Hirayama, T. Mizoguchi, T. Saito, T. Kamiyama, and R. Kanno Science, 381 (2023), 50-53 [here]

  4. “Twist-induced interlayer charge buildup in a WS2 bilayer revealed by electron Compton scattering and density functional theory”
    A TalmantaiteY Xie, A Cohen, PK Mohapatra, A Ismach, T Mizoguchi, SJ Clark, BG Mendis 
    Phys. Rev. B, 107 (2023) 235424-1-10 [Open access]

  5. “Prediction of the Ground State Electronic Structure from Core-loss Spectra of Organic Molecules by Machine Learning”
    PY. Chen, K. Shibata, K. Hagita, T. Miyata, and T. Mizoguchi
    J. Phys. Chem. Lett., 14 (2023) 4858-4865. DOI: 10.1021/acs.jpcc.3c01073   [Open Access] 

  6. “Possible New Graphite Intercalation Compounds for Superconductors and Charge Density Wave Materials: Systematic Simulations with Various Intercalants Using a van der Waals Density Functional Method”
    N. KawaguchiK. Shibata, and T. Mizoguchi
    J. Phys. Chem. C, 127 (2023) 9833-9843. DOI: 10.1021/acs.jpcc.3c01073  [Open Access] 

  7. “Tensile strength of a transverse grain boundary in a single-walled carbon nanotube”
    YS. Xie, K. Shibata, and T. Mizoguchi
    J. Ceram. Soc. Jpn., 131 (2023), 621-627. [here]

  8. “A guideline for searching for stable grain boundary structure by utilizing crystallographic information: a method based on non-identical termination”
    Y. Hata, YS. Xie, K. Shibata, and T. Mizoguchi
    J. Ceram. Soc. Jpn., 131 (2023), 738-745. [here]

  9. “A defect formation mechanism induced by structural reconstruction of a well-known silicon grain boundary”
    YS. XieK. Shibata, and T. Mizoguchi
    Acta Mater., 250 (2023) 118827-1-11. [here]

—2022—

  1. “interface_master: Python package building CSL and approximate CSL interfaces of any two lattices — an effective tool for interface engineers”
    **YS. Xie, K. Shibata, **and T. Mizoguchi
    arxiv, (2022) https://arxiv.org/abs/2211.15173

  2. “STEM-EELSを用いた局所原子配位環境と熱膨張の計測”
    溝口照康柴田基洋
    ファインセラミックスレポート,Vol. 40, No. 4, P146-153.

  3. “機能コア解析のためのソフトウェア開発と応用”
    世古敦人,豊浦和明,柴田基洋,溝口照康
    まてりあ,Vol. 61, No. 10, P634-639

  4. ” Multimetastability effect on the intermediate stage of phase separation in BaO-SiO2 glass”
    K. Nakazawa, Y. Tsukada, S. Amma, K. Shibata, and T. Mizoguchi,
    Phys. Rev. Res., 4 (2022) 033052-1-8. doi.org/10.1103/PhysRevResearch.4.033052 [Open Access] 

  5. “Ceramic Science of Crystal Defect Cores”
    K. Matsunaga, M. Yoshiya, N. Shibata, H. Ohta, and T. Mizoguchi,
    J. Ceram. Soc. Jpn, (2022) doi.org/10.2109/jcersj2.22080. [Open Access]  

  6. “深層学習モデリング活用によるナノ材料シミュレーション”
    溝口照康,梅野宜崇
    機械の研究,Vol. 74, No. 5, P329-336

  7. “Simulated carbon K edge spectral database of organic molecules”
    K. ShibataK. KikumasaS. Kiyohara, and T. Mizoguchi
    Scientific Data, 9 (2022) 214-1-11. [Open Access]

  8. “Quantum Oscillations from Fermi arc Surface States in Cd3As2 Nanowires”
    Y. Miyazaki, T. Yokouchi, K. Shibata, Y. Chen, H.Arisawa, T. Mizoguchi, E. Saitoh, and Y. Shiomi
    *Phys. Rev. Res. *4 (2022) L022002-1-6. [Open Access]

  9. “人工知能を利用した界面物性および表面物性の予測”
    *溝口照康,柴田基洋
    セラミックデータブック 2021/2022, Vol49, p37-42.

  10. “Determination of the Spectrum–structure Relationship by Tree Structure-based Unsupervised and Supervised Learning”
    *S. Kiyohara, *K. KikumasaK. Shibata, and T. Mizoguchi
    Ultramicroscopy, 233 (2022) 113438-1-8 [Open Access]

  11. “A brute-force code searching for cell of non-identical displacement for CSL grain boundaries and interfaces”
    YS. XieK. Shibata, andT. Mizoguchi
    Comp. Phys. Comm. 273 (2022) 108260-1-8  [here]

  12. “Quantification of the Properties of Organic Molecules Using Core-Loss Spectra as Neural Network Descriptors”
    K. Kikumasa, S. Kiyohara, K. Shibata, and T. Mizoguchi Advanced Intelligent Systems, 4 (2022) 2100103-1-10. doi:10.1002/aisy.202100103. [Open Access]
    [This paper was selected as “Hot Topic:Artificial Intelligence and Machine Learning”][Selcted as Back Side Cover]

—2021—

  1. “Nanoscale Investigation of Local Thermal Expansion at SrTiO3 Grain Boundaries by Electron Energy Loss Spectroscopy”
    K. Liao, K. Shibata,andT. Mizoguchi
    Nano Letters, 21 (2021) 10416-10422 [Open Access]

  2. “Quantum Deep Descriptor: Physically Informed Transfer Learning from Small Molecules to Polymers”
    M. Tsubaki andT. Mizoguchi
    J. Chem. Theory Comput., 17 (2021) 7814-7821. [Open Access]

  3. “Robotic fabrication of high-quality lamellae for aberration-corrected transmission electron microscopy”
    H. Tsurusawa, N. Nakanishi,K. Kawano, Y. Chen,B. V. Leer, T. Mizoguchi
    Scientifc Reports, 11 (2021) 21599-1-12. [Open Access] (arxiv), Our manuscript was selected as “Top 100 in Physics”!!

  4. “First principles study on formation and migration energies of sodium and lithium in graphite”, I. Takahara and T. Mizoguchi
    Phys. Rev. Mater. 5 (2021) 085401-1-7. doi:10.1103/PhysRevMaterials.5.085401 [here]

  5. “Accurate prediction of bonding properties by a machine learning–based model using isolated states before bonding”E. SuzukiK. Shibata, andT. Mizoguchi, Appl. Phys. Exp. 14 (2021) 085503-1-6 doi: 10.35848/1882-0786/ac083b [Open Access][This paper was selected as “Spotlights 2021 in Applied Physics Express”]

  6. “ピクセル型STEM検出器によるタイコグラフィーの初歩”
    三石和貴,中澤克昭,溝口照康,佐川隆亮,山崎裕一
    *顕微鏡 *Vol.56 (2021) 31-37. 

  7. “Dataset on structure and physical properties of stable diatomic systems based on van der Waals density functional method”
    K. ShibataE. Suzuki, and T. Mizoguchi
    Data in Brief, 36 (2021) 106968.[Open Access]

—2020—

  1. “データ駆動型内殻電子励起分光スペクトル(ELNES/XANES)解析”
    溝口照康,清原慎
    日本化学会情報化学部会誌, 38 (2020) 16-19

  2. “Revealing Spatial Distribution of Al-Coordinated Species in a Phase-Separated Aluminosilicate Glass by STEM-EELS”
    K. Liao, A. Masuno, A. Taguchi, H. Moriwake, H. Inoue, and T. Mizoguchi
    J. Phys. Chem. Lett., 11 (2020) 9637–9642. [Open Access]

  3. “Quantum Deep Field: Data-Driven Wave Function, Electron Density Generation, and Atomization Energy Prediction and Extrapolation with Machine Learning”
    M. Tsubaki and T. Mizoguchi
    Phys. Rev. Lett., 125 (2020) 206401-1-6. [Open Access]

  4. “In situ observation of the dynamics in the middle stage of spinodal decomposition of a silicate glass via scanning transmission electron microscopy”
    K. NakazawaS. Amma, and T.Mizoguchi
    Acta Mater. 200 (2020) 720-726. [Open Access]

  5. “Radial distribution function from X-ray absorption near edge structure with an artificial neural network”, S. Kiyohara andT. Mizoguchi, J. Phys. Soc. Jpn (Letter), 89 (2020) 103001-1-4. [Open Access]

  6. “Local thickness and composition measurements from scanning convergent-beam electron diffraction of a binary non-crystalline material obtained by a pixelated detector “
    K. Nakazawa,K. Shibata, K. Mitsuishi, S. Amma, andT.Mizoguchi
    Ultramicroscopy, 217 (2020) 113077-1-8 **[Open Access]
    **

  7. “EQCM Analysis of Intercalation Species into Graphite Positive Electrodes for Al Batteries”
    S. Yamagata, I. Takahara, M. Wang, T. Mizoguchi, and S. Yagi
    J. Alloy and Comp., 846 (2020) 156469-1-7 [here]

  8. “Learning excited states from ground states by using an artificial neural network”
    S. Kiyohara, M. Tsubaki, and T.Mizoguchi
    npj Comp. Mater., 6 (2020) 68-1-6 DOI:10.1038/s41524-020-0336-3 [Open Access]

  9. “Real-Space Mapping of Oxygen Coordination in Phase-Separated Aluminosilicate Glass: Implication for Glass Stability”
    K. Liao, M. Haruta, A. Masuno, H. Inoue, H. Kurata, and T. Mizoguchi
    ACS Applied Nano Materials, 3 (2020) 5053-5060 DOI:10.1021/acsanm.0c00196 [here]

  10. “Prediction of interface and vacancy segregation energies at silver interfaces without determining interface structures”
    R. Otani, S. Kiyohara, K. Shibata and T. Mizoguchi
    Applied Physics Express, 13 (2020) 065504-1-6. [Open Access]

  11. “結晶界面インフォマティクス:構造決定と構造機能相関”
    大谷龍剣清原慎溝口照康
    まてりあ, 59 (2020) 134-138

  12. “Machine learning applications for ELNES/XANES” (Invited review)
    T.Mizoguchi and S. Kiyohara
    Microscopy, 69 (2020) 92-109. doi.org/10.1093/jmicro/dfz109  **[Open Acess]
    **
    *[This manuscript was selected as a “Most Read Article in 2020-2021” ! herehere]  *

  13. “機械学習を利用した結晶界面構造決定と構造機能相関”
    溝口照康,清原慎,大谷龍剣
    *触媒,  *62 (2020) 35-41.

—2019—

  1. “機械学習を活用した結晶界面構造決定”
    溝口照康,清原慎
    *錯体学会誌 *74 (2019) 59-62.

  2. “機械学習を活用した結晶界面研究”
    溝口照康
    *応用物理学会誌, *88, (2019) 745-749.

  3. “機械学習を活用したスペクトル解析”
    溝口照康,清原慎
    Isotope News,764 (2019) 20-23.

  4. “EELSと第一原理計算によるエキシトン,原子振動および van derWaals 力の解析”
    溝口照康,清原慎
    セラミックス, 54 (2019) 456-463.

  5. “機械学習を活用した界面構造探索とスペクトル解析”
    清原慎溝口照康 人工知能,34巻 3号, (2019) 345-350.

  6. “Machine learning for structure determination and investigating the structure-property relationships of interfaces”
    H. Oda, S. Kiyohara and T. Mizoguchi
    J. Phys.: Materials, 2 (2019) 034005-1-8  [You can download this manuscript from here]

  7. “Quantitative estimation of properties from core-loss spectrum via neural network”
    S. Kiyohara, M. Tsubaki,Kunyen Liao, andT. Mizoguchi
    J. Phys.: Materials, 2 (2019) 024003-1-9  [You can download this manuscript from here]

  8. “Atomic-scale investigation of the heterogeneous structure and ionic distribution in an ionic liquid using scanning transmission electron microscopy”
    **Y. Sugimori, T. Miyata, **H. Hashiguchi, E. Okunishi, and T. Mizoguchi
    RSC Advances, 9 (2019) 10520-10527. [You can download this manuscript from here]

  9. “Vibrational Effects in X-ray Absorption Spectra of 2D Layered Materials”
    W. Olovsson, T. Mizoguchi, M. Magnuson, S. Kontur, A. Togo, O. Hellman, I. Tanaka, and C. Draxl
    J. Phys. Chem. C 123 (2019) 9688–9692.

  10. “走査透過型電子顕微鏡法によるガラス,イオン液体,および気体の構造解析”
    溝口照康宮田智衆清原慎中澤克昭杉森悠貴
    セラミックス*, 54 (2019) 66-71.

  11. “機械学習を用いた物質界面構造の高速決定”
    清原慎溝口照康
    表面と真空*,62 (2019) 130-135.

—2018—

  1. “Lattice expansion and local lattice distortion in Nb- and La-doped SrTiO3 single crystals investigated by x-ray diffraction and first-principles calculations”
    S. Kobayashi, Y. Ikuhara and T. Mizoguchi
    Phys. Rev. B.*, 98 (2018) 134114-1-13

  2. “Fast and Accurate Molecular Property Prediction: Learning Atomic Interactions and Potentials with Neural Networks”
    M. Tsubaki and T. Mizoguchi J. Phys. Chem. Lett.*, 9 (2018), 5733-5741. DOI: 10.1021/acs.jpclett.8b01837.
    **This manuscript has Correction!! [HERE]**

  3. “透過型電子顕微鏡を用いたイオン液体の原子分解能観察”**
    宮田智衆杉森悠貴,橋口裕樹,奥西栄治,上杉文彦,溝口照康
    化学工業,69 (2018) 15-22.

  4. “シリカ系ガラスの分相構造観察”
    中澤克昭宮田智衆,安間伸一,溝口照康
    NEW Glass, 33 (2018) 27-32

  5. “Data-driven approach for the prediction and interpretation of core-electron loss spectroscopy”**
    K. KiyoharaT. Miyata, K. Tsuda, and T. Mizoguchi
    Scientific Reports, 8 (2018) 13548-1-12 [You can download this manuscript from here]
    This manuscript was selected “top 100 materials science Scientific Reports papers in 2018”!!

  6. “Progress in nanoinformatics and informational materials science”
    A. Seko, K. Toyoura, S. Muto, T. Mizoguchi, S. Broderick, MRS Bulletin*, 43 (2018) 690-695 DOI:10.1557/mrs.2018.206

  7. “Identifying lithium K edge anisotropy in LiCoO2”
    J. Kikkawa, T. Mizoguchi, T. Nagai, and K. Kimoto
    Physical Review B, 98 (2018) 075103-1-6 DOI: 10.1103/PhysRevB.98.075103

  8. “Identification of nanometer-scale compositional fluctuations in silicate glass using electron microscopy and spectroscopy”
    K. NakazawaT. Miyata, S. Amma, and T. Mizoguchi
    Scripta Mater., 154 (2018) 197-201

  9. “Searching the stable segregation configuration at the grain boundary by a Monte Carlo tree search “
    S. Kiyohara and T. Mizoguchi
    J. Chem. Phys., 148 (2018) 241741-1-6

  10. “Dissociation Reaction of the 1/3 Edge Dislocation in α-Al2O3”
    E. Tochigi, T. Mizougchi, E. Okunishi, A. Nakamura, N. Shibata, and Y. Ikuhara
    J. Mater. Sci., 53 (2018) 8049-8058.

  11. “Effective search for stable segregation configurations at grain boundaries with data-mining techniques” S. Kiyohara, and T. Mizoguchi
    Physica B, 532 (2018) 9-14.

  12. “Bayesian optimization for efficient determination of metal oxide grain boundary structures**“
    S. KikuchiH. OdaS. Kiyohara, and T. Mizoguchi
    Physica B, 532 (2018) 24-28.

  13. “High-resolution mapping of molecules in an ionic liquid via scanning transmission electron microscopy”**
    **T. Miyata **and T. Mizoguchi
    Microscopy, 67 (2018) i162–i167 doi.org/10.1093/jmicro/dfx119 [You can download this manuscript from here.]

—2017—

  1. “Real-space analysis of diffusion behavior and activation energy of individual monatomic ions in a liquid”
    T. Miyata, F. Uesugi, and T. Mizoguchi
    ** Science Advances, 3 (2017)  e1701546-1-5. [You can download this manuscript from here.]

  2. “Estimation of the molecular vibration of gases using electron microscopy”**
    H. Katsukura,T. Miyata, M. Shirai, H. Matsumoto, and T. Mizoguchi
    Scientific Reports, 7 (2017), 16434-1-9.  [You can download this manuscript from here.]

  3. “Transfer Learning to Accelerate Interface Structure Searches”
    H. Oda, S. Kiyohara, K. Tsuda, andT. Mizoguchi
    J. Phys. Soc. Jpn (Letter), 86 (2017)  123601-1-4. [You can download this manuscript from here.]

  4. “Basics and Applications of ELNES calculation” (Invited Review)
    H. Ikeno andT. Mizoguchi
    Microscopy, 66 (2017) 305–327. [You can get this manuscript from here.]

  5. “Excitonic, vibrational, and van der Waals interactions in electron energy loss spectroscopy” (Invited Manuscript)
    T. MizoguchiT. Miyata, and W. Olovsson
    Ultramicroscopy, 180 (2017) 93-103. dx.doi.org/10.1016/j.ultramic.2017.03.003

  6. “Fabrication of Thin TEM Sample of Ionic Liquid for High-Resolution ELNES Measurements”**
    T. Miyata and T. Mizoguchi
    Ultramicroscopy, 178 (2017) 81-87.  doi:10.1016/j.ultramic.2016.10.009

  7. “Effect of van der Waals interaction on the electron energy-loss near edge structure theoretical calculation”
    H. KatsukuraT. MiyataK. Tomita, and T. Mizoguchi
    Ultramicroscopy, 178 (2017) 88-95. doi:10.1016/j.ultramic.2016.07.012

  8. “Strong excitonic interactions in the oxygen K-edge of perovskite oxides”
    K. Tomita,T. Miyata, W. Olovsson, and T. Mizoguchi
    Ultramicroscopy, 178 (2017) 105-111. DOI:10.1016/j.ultramic.2016.04.006i 

 —2016—

  1. “Prediction of interface structures and energies via virtual screening”
    S. KiyoharaH. OdaT. Miyata, and T. Mizoguchi
    Science Adv., 2 (2016) e1600746-1-7 . doi:10.1126/sciadv.1600746 [You can download this manuscript from here.]

  2. “A valence state evaluation of a positive electrode material in a Li-ion battery with first-principles K- and L-edge XANES spectral simulations and resonance photoelectron spectroscopy”, K. KubobuchiM. Mogi, M. Matsumoto, T. Baba, C. Sato, T. Yamamoto, T. Mizoguchi, H. Imai
    J. Appl. Phys., 120 (2016) 142125-1-13; doi: 10.1063/1.4963379.

  3. “Experimental system combined with a micromachine and double-tilt TEM holder”
    T. Sato, E. Tochigi, T. Mizoguchi, Y. Ikuhara and H. Fujita
    Microelectronic Engineering, 164 (2016) 43-47. doi:10.1016/j.mee.2016.06.018

  4. “Effect of van der Waals interactions on the stability of SiC polytypes”
    S. Kawanishi and T. Mizoguchi
    J. Appl. Phys. 119 (2016) 175101-1-4. doi:10.1063/1.4948329

  5. “Core–Excitonic Interaction in Sodium L2,3 Edge Structure Investigated Using the Bethe-Salpeter Equation”
    K. TomitaT. Miyata, W. Olovsson, and T. Mizoguchi
    J. Phys. Chem. C, 120 (2016) 9036-9042. DOI: 10.1021/acs.jpcc.5b12389 

  6. ” COMBO: An Efficient Bayesian Optimization Library for Materials Science”
    T. Ueno, T. D. Rhone, Z. Hou, T. Mizoguchi, K. Tsuda
    Materials Discovery, 4 (2016) 18-21.

  7. “Acceleration of stable interface structure searching using a kriging approach”
    S. KiyoharaH. Oda, K. Tsuda, and T. Mizoguchi
    Jpn. J. Appl. Phys., 55 (2016) 045502-1-4.

  8. “Characterization of Vanadium in Oil Sands Fluid Petroleum Coke”
    J. E Zuliani,T. Miyata,T. Mizoguchi, J. Feng, D. W Kirk, and C. Jia
    Fuel, 178 (2016) 124-128.

  9. “First principles calculation of oxygen K edge absorption spectrum of acetic acid: Relationship between the spectrum and molecular dynamics”
    Y. Matsui and T. Mizoguchi
    Chem. Phys. Lett., 649 (2016) 92-96. 

  10. “Atomic Structure Characterization of Stacking Faults on the {1-100} Plane in α-Alumina by Scanning Transmission Electron Microscopy”
    E. Tochigi, S. D. Findlay, E. Okunishi, T. Mizoguchi, A. Nakamura, N. Shibata, and Y. Ikuhara
     AIP-Conference Proceedings Series, 1763 (2016) 050003.

  11. “Investigation of Segregation of Silver at Copper Grain Boundaries by First Principles and Empirical Potential Calculations”
    S. Kiyohara and T. Mizoguchi
     AIP-Conference Proceedings Series,  1763 (2016) 040001.

    —2015—

  12. “High Elastic Moduli of a 54Al2O3-46Ta2O5 Glass Fabricated via Containerless Processing”
    G. A. Rosales, A. Masuno, Y. Higo, H. Inoue, Y. Yanaba, T. Mizoguchi, T. Umada, K. Okamura, K. Kato, Y. Watanabe
    Sci. Rep., 5 (2015) 15233-1-8.

  13. “A new LiNbO3-type polar oxides with closed-shell cations: ZnPbO3”
    R. Yu, H. Hojo,T. Mizoguchi and M. Azuma
    J. Appl. Phys., 118 (2015) 094103-1-5

  14. “Copper accumulation in the sequestrum of medication-related osteonecrosis of the jaw”
    T. Sugiyama, M. Uo,T. Mizoguchi, T. Wada, D. Omagari, K. Komiyama, Y. Mori
    Bone Reports, 3 (2015) 40-47

  15. “Local coordination state of rare earth in eutectic scintillators for neutron detector applications”
    H. Masai, T. Yanagida,T. Mizoguchi, T. Ina, T. Miyazaki, N. Kawaguti, and K. Fukuda
    Scientific Reports, 5 (2015) 13332-1-8

  16. “Assessment of strain-generated oxygen vacancies using SrTiO3 bicrystals”
    S-Y. Choi, S-D Kim, M Choi, J. Ryu, N. Shibata, T. Mizoguchi, E. Tochigi, T. Yamamoto, S-J L. Kang, and Y. Ikuhara
    Nano Lett., 15 (2015) 4129-4134.

  17. “Dissociation of the 1/3 Dislocation and Formation of the Anion Stacking Fault on the Basal Plane in α-Al2O3”
    E. Tochigi, A. Nakamura, T. Mizoguchi, N. Shibata, and Y. Ikuhara
    Act. Mater., 91 (2015) 152-161.

  18. 「第一原理計算の基礎とEELS 計算への応用」
    池野豪一,溝口照康
    顕微鏡, Vol 50, No. 1 (2015) 16-22 【表紙に採用されました】

    —2014—

  19. “Importance of Fermi energy for understanding the intermixing behavior at the LaAlO3/SrTiO3 heterointerface”**
    T. Yamamoto and T. Mizoguchi
    Appl. Phys. Lett.,105 (2014) 201604-1-4. (DOI: 10.1063/1.4902314)

  20. “Measurement of vibrational spectrum of liquid using monochromated scanning transmission electron microscopy-electron energy loss spectroscopy” 
    T. Miyata, M. Fukuyama, A. Hibara, E. Okunishi, M. Mukai, and T. Mizoguchi,
    Microscopy, 63 (2014) 377-382. (doi: 10.1093/jmicro/dfu023)

  21. 「材料解析におけるELNES/XANES の第一原理計算」 
    溝口照康,栃木栄太,柴田直哉,幾原雄一,松永克志
    まてりあ, 53, No.9 (2014) 414-418.

  22. “Impact of local strain on Ti-L2,3 electron energy-loss near-edge structures of BaTiO3: A first-principles multiplet study” 
    S. Ootsuki, H. Ikeno, Y. Umeda, H. Moriwake, A. Kuwabara, O. Kido, S. Ueda, I. Tanaka, Y. Fujikawa, and T. Mizoguchi
    Microscopy 3 (2014), 249–253. 

  23. “Defect formation energetics at the grain boundary in CuInSe2 using first-principles calculations” 
    H. Yamaguchi and T. Mizoguchi
    J. Ceram. Soc. Jpn, 122 (2014) 469-472. 

  24. “The atomic structure, band gap, and electrostatic potential at the (112)[1-10] twin grain boundary of CuInSe2” 
    H. Yamaguchi, H. Hiramatsu, H. Hosono, and T. Mizoguchi
    Appl. Phys. Lett., 104, 153904-1-5 (2014). 

  25. “Magnetic Structures of FeTiO3-Fe2O3 Solid Solution Thin Films Studied by Soft X-ray Magnetic Circular Dichroism and ab Initio Multiplet Calculations” 
    H. Hojo, K. Fujita, H. Ikeno, T. Matoba, T. Mizoguchi, I. Tanaka, T. Nakamura, Y. Takeda, T. Okane, and K. Tanaka 
    Appl. Phys. Lett., 104, 112408-1-4 (2014). 

  26. 「球面収差補正走査透過型電子顕微鏡をもちいたガラス中ドーパントの単原子観察」 
    溝口照康
    NEW GLASS, vol29, No.1 (2014) 23-27

  27. “Mn L2,3-edge X-ray absorption spectroscopic studies on charge-discharge mechanism analysis of Li2MnO3”
    K. Kubobuchi, H. Ikeno, M. Mogi, I. Tanaka, H. Imai, and T. Mizoguchi
    Appl. Phys. Lett., 104 (2014) 053906-1-4. 

    —-2013—-

  28. ” High pressure infrared and X-ray Raman studies of aluminum nitride” 
    M. Pravica, N. Bhattacharya, Y. Liu, J. Robinson, WS Au, T. Mizoguchi, Z. liu, Y. Xao
    Physica Status Solidi (b), 250 (2013) 726-731.

  29. ” An estimation of molecular dynamic behaviour in a liquid using core-loss spectroscopy” 
    Y. Matsui, K. Seki, H. Hibara, T. Mizoguchi
    Scientific Reports, 3 (2013) 3503-1-7.

  30. “Stabilization of metastable ferroelectric Ba12xCaxTi2O5 by breaking Ca-site selectivity via crystallization from glass” 
    A. Masuno, C. Moriyoshi, T. Mizoguchi, T. Okajima, Y. Kuroiwa, Y. Arai, J. Yu, H. Inoue, Y. Watanabe
    Scientific Reports, 3 (2013) 3010-1-6.

  31. “Atomic structure of titania nanosheet with vacancies” 
    M. Ohwada, K. Kimoto, T. Mizoguchi, Y. Ebina, and T. Sasaki 
    Scientific Reports, 3 (2013) 2801-1-5.

  32. “Atomic resolution chemical bond analysis of oxygen in La2CuO4” 
    M. Haruta, T. Nagai, N. R. Lugg, M. J. Neish, S. D. Findlay, M. Nagao, K. Kurashima, L. J. Allen, T. Mizoguchi, and K. Kimoto 
    J. Appl. Phys., 114, (2013) 083712-1-8.

  33. “Effect of local coordination of Mn on Mn-L2,3 edge electron energy loss spectrum” 
    S. Nishida, S. Kobayashi, A. Kumamoto, H. Ikeno, T. Mizoguchi, I. Tanaka, Y. Ikuhara, T. Yamamoto
    J. Appl. Phys., 114,(2013)054906-1-6. 

  34. “Periodic Nanowire Array at Crystal Interface” 
    A. Nakamura, T. Mizoguchi, K. Matsunaga, T. Yamamoto, N. Shibata, and Y. Ikuhara 
    ACS Nano, 7 (2013) 6297–6302. 

  35. “Atomic Scale Identification of Individual Lanthanide Dopants in Optical Glass Fiber” 
    T. Mizoguchi, S. D. Findlay, A. Masuno, Y. Saito, K. Yamaguchi, Y. Ikuhara, and H. Inoue 
    ACS Nano, 7 (2013) 5058-5063(DOI: 10.1021/nn400605z)

  36. “The influence of neighboring vacancies and their charge state on the atomic migration of LaAlO3”
    T. Yamamoto and T. Mizoguchi
    Appl. Phys. Lett., 102 (2013) 211910-1-4.

  37. “Atomic structure, energetics, and chemical bonding of Y doped Σ13 grain boundaries in α-Al2O3” 
    M. Azuma, N. Shibata, T. Mizoguchi, S. D. Findlay, K. Nakamura, and Y. Ikuhara 
    Phil. Mag., 93 (2013) 1158-1171.

  38. “First principles study on oxygen vacancy formation in rock salt-type oxides MO (M: Mg, Ca, Sr and Ba)”
    T. Yamamoto and T. Mizoguchi 
    Ceram. Inter., 39(2013)S287–S292. 

    –2012–

  39. “Removing the effects of elastic and thermal scattering from electron energy-loss spectroscopic data” 
    N. R. Lugg, M. Haruta, M. J. Neish, S. D. Findlay, T. Mizoguchi, K. Kimoto, and L. J. Allen, 
    Appl. Phys. Lett., 101, 183112-1-4 (2012). 

  40. “First principles calculation of dopant solution energy in HfO2 polymorphs” 
    M. Saitoh, T. Tohei, and Y. Ikuhara, T. Mizoguchi 
    J. Appl. Phys., 112, 084514-1-7, (2012). 

  41. “Defect energetics in LaAlO3 polymorphs: A first principles study” 
    T. Yamamoto and T. Mizoguchi 
    Phys. Rev. B, 86 (2012) 094117.

  42. “Role of Dislocation Movement in the Electrical Conductance of Nanocontacts” 
    T. Ishida, K. Kakushima, T. Mizoguchi and H. Fujita 
    Scientific Reports 2, (2012) 623-1-4.

  43. “原子分解能STEM-EELSと第一原理計算による電子セラミックスの機能設計”
    溝口照康
    セラミックス 7月号 (2012) 515-519

  44. “Simultaneous visualization of oxygen vacancies and the accompanying cation shifts in a perovskite oxide by combining annular imaging techniques”
    S. Kobayashi, E. Okunishi, S. D. Findlay, N. Shibata , T. Mizoguchi, Y. Sato, Y. Ikuhara and T. Yamamoto 
    Appl. Phys. Lett., 100, (2012) 193112-1-4

  45. “Lithium-ion conducting La2/32xLi3xTiO3 solid electrolyte thin films with stepped and terraced surfaces”
    H. Ohta, T. Mizoguchi, N. Aoki, T. Yamamoto, A. Sabarudin, and T. Umemura 
    Appl. Phys. Lett., 100,(2012) 173107-1-4 

  46. “Atomic structure of a Σ3 [110]/(111) grain boundary in CeO2”
    B. Feng, H. Hojo, T. Mizoguchi, H. Ohta, S. D. Findlay, Y. Sato, N. Shibata, T. Yamamomoto, and Y. Ikuhara 
    Appl. Phys. Lett., 100, 073109-1-3(2012) 

  47. “Nanowire of hexagonal gallium oxynitride; direct observation of its stacking disorder and its long nanowire growth” 
    Y. Masubuchi, R. Yamaoka, T. Motohashi, T. Tohei, T. Mizoguchi, Y. Ikuhara, and S. Kikkawa 
    J. Euro. Ceram. Soc., 32 (2012) 1989-1993

  48. “First principles pseudopotential calculation of electron energy loss near edge structure of lattice imperfections” 
    T. Mizoguchi, K. Matsunaga, E. Tochigi, Y. Ikuhara
    Micron, 43 (2012) 37–42. 

    –2011–

  49. “Ab-initio multiplet calculation of oxygen vacancy effect on Ti-L2,3 electron energy loss near edge structures of BaTiO3” 
    S. Ootsuki, H. Ikeno, Y. Umeda, H. Moriwake, A. Kuwabara, O. Kido, S. Ueda, I. Tanaka, Y. Fujikawa, and T. Mizoguchi
    Appl. Phys. Lett., 99 (2011) 233109-1-3.

  50. “Characterization and atomic modeling of an asymmetric grain boundary”
    H. S. Lee, T. Mizoguchi, S. J. L. Kang, T. Yamamoto, and Y. Ikuhara
    Phys. Rev. B, 84 (2011) 195319-1-7. 

  51. “Growth of Ruddlesden-Popper type faults in Sr-excess SrTiO3 homoepitaxial thin films by pulsed laser deposition” 
    Y. Tokuda, S. Kobayashi, T. Ohnishi, T. Mizoguchi, N. Shibata, Y. Ikuhara, and T. Yamamoto 
    Appl. Phys. Lett., 99,173109-1-3 (2011).

  52. “Zr segregation and Associated Al Vacancies in Alumina Grain Boundaries”
    J. P. Buban, T. Mizoguchi, E. Abe, N. Shibata, T. Yamamoto, and Y. Ikuhara
    J. Ceram. Soc. Jpn, 119 (2011) 840-844

  53. “The effect of vacancies on the annular dark field image contrast of grain boundaries: a SrTiO3 case study” 
    H. S. Lee, S.D. Findlay, T. Mizoguchi, and Y. Ikuhara
    Ultramicroscopy 111 (2011)1531-1539.

  54. “Atomic and Electronic Structures of the SrVO3-LaAlO3 Interface”
    M. Chi, J.P. Bradley, N. D. Browning, T. Mizoguchi, L.W. Martin, R. Ramesh, H. Ikeno, and I. Tanaka 
    J. Appl. Phys. 110 (2011) 046104-1-3. 

  55. “Strontium vacancy clustering in Ti-excess SrTiO3 thin film”
    Y. Tokuda, S. Kobayashi, T. Ohnishi, T. Mizoguchi, N. Shibata, Y. Ikuhara, and T. Yamamoto
    Appl. Phys. Lett. 99 (2011)033110-1-3. 

  56. “Scanning transmission electron microscopy imaging dynamics at low accelerating voltages” 
    N.R. Lugg, S.D. Findlay, N. Shibata, T. Mizoguchi, A.J. D’Alfonso, L.J. Allen, Y. Ikuhara 
    Ultramicroscopy, 111 (2011) 999-1013. 

  57. “Controlling interface intermixing and property of SrTiO3 based superlattices”
    T. Mizoguchi, H. Ohta, HS. Lee, N. Takahashi, and Y. Ikuhara 
    *Adv. Funct. Mater. (2011) 21, 2258–2263 *

  58. “heoretical Fingerprints of Transition Metal L2,3 XANES and ELNES for Lithium Transition Metal Oxides by ab Initio Multiplet Calculations”
    H. Ikeno, T. Mizoguchi, Y. Koyama, I. Tanaka 
    J. Phys. Chem. C, (2011) 115, 11871-11879

  59. “Al-L2,3 edge x-ray absorption spectra in III-V semiconductors: Many-body perturbation theory in comparison with experiment” 
    W. Olvsson,I. Tanaka, T. Mizoguchi, G. Radtke, P. Puchnig, and C. Ambrosh-Draxl, 
    Phys. Rev. B (2011) 83 195206-1-8 

  60. “Atomic structure and strain field of threading dislocations in CeO2 thin films on yttria-stabilized ZrO”
    H. Hojo, E. Tochigi, T. Mizoguchi, H. Ohta, N. Shibata, B. Feng, and Y. Ikuhara 
    *Appl. Phys. Lett. (2011) 98 153104-1-3 *

  61. “Study on Atomic and Electronic Structures of Ceramic Materials using Spectroscopy, Microscopy, and First Principles Calculation” (Review) 
    T. Mizoguchi

    *J. Ceram. Soc. Jpn, 119 (2011) 325-333 *

  62. “Ab-initio charge transfer multiplet calculations on the L 2,3 XANES and ELNES of 3d transition metal oxides” 
    H. Ikeno, T. Mizoguchi, and I. Tanaka 
    Phys. Rev. B, 83, 155107-1-13 (2011)

  63. “Oxygen-vacancy ordering at surfaces of lithium manganese(III, IV) oxide spinel nanoparticles” 
    R. Huang, Y.H. Ikuhara, T. Mizoguchi, S.D. Findlay, A. Kuwabara, C.A.J. Fisher, H. Moriwake, H. Oki, T. Hirayama, and Y. Ikuhara
    *Angew. Chem. Int. Ed., 50 (2011) 3053-3057 *

  64. “First-principles study on migration mechanism in SrTiO3” 
    T. Mizoguchi, N. Takahashi, HS. Lee 
    *Appl. Phys. Lett. 98 (2011) 091909 *

  65. “Defect energetics in SrTiO3 symmetric tilt grain boundaries”
    H. S. Lee, T. Mizoguchi, J. Mitsui, S. J. L. Kang, T. Yamamoto, and Y. Ikuhara
    *Phys. Rev. B 83 (2011) 104110-1-10 *

  66. “Structures of a R 5 9, [110]/{221} symmetrical tilt grain boundary in SrTiO3” 
    T.Mitsuma, T.Tohei, N.Shibata, T.Mizoguchi, T.Yamamoto, and Y.Ikuhara 
    *J. Mater. Sci., 46 (2011) 4162-4168 *

  67. “Cation off-stoichiometric SrMnO3-δ thin film grown by pulsed laser deposition” 
    S. Kobayashi, Y. Tokuda, T. Ohnishi, T. Mizoguchi, N. Shibata, Y. Sato, Y. Ikuhara, T. Yamamoto 
    *J. Mater. Sci., 46 (2011) 4354-4360 *

  68. “Cation diffusion along basal dislocations in sapphire”
    T. Nakagawa, A. Nakamura, I. Sakaguchi, N. Shibata, T. Mizoguchi, T. Yamamoto, H. Haneda, N. Ohashi, Y. Ikuhara
    *Acta Materialia 59 (2011) 1105-1111

    –2010–

  69. “Quantitative analyses of oxidation states for cubic SrMnO3 and orthorhombic SrMnO2.5 with electron energy loss spectroscopy” 
    S. Kobayashi, Y. Tokuda, T. Mizoguchi, N. Shibata, Y. Sato, Y. Ikuhara and T. Yamamoto 
    *J. Appl. Phys. vol.108 (2010) 124903-124903-4 *

  70. “Cr Diffusion in alpha-Al2O3: Secondary Ion Mass Spectroscopy and First-principles Study”
    N. Takahashi, T. Mizoguchi, T. Nakagawa, T. Tohei, I. Sakaguchi, A. Kuwabara, N. Shibata, T. Yamamoto, and Y. Ikuhara
    Phys. Rev. B, 82, 174302-1-5 (2010)

  71. “Atomic Structure of a CeO2 Grain Boundary: The Role of Oxygen Vacancies”
    H. Hojo, T. Mizoguchi, H. Ohta, SD. Findlay, T. Yamamoto, and Y. Ikuhara 
    *Nano Lett., 10 (2010) 4668–4672. *

  72. “Origins of Hole Doping and Relevant Optoelectronic Properties of Wide Gap p-Type Semiconductor, LaCuOSe”
    H. Hiramatsu, T. Kamiya, T. Tohei, E. Ikenaga, T. Mizoguchi, Yuichi Ikuhara, K. Kobayashi, and H. Hosono
    J. Am. Chem. Soc., 132 (2010), 15060–15067

  73. “Theoretical ELNES: one particle and many particle calculations”(Invited Review)
    T. Mizoguchi, W. Olovsson, H. Ikeno, and I. Tanaka
    Micron 41 (2010) 695–709

  74. “First-principles calculations of Zn-K XANES in Ca-deficient hydroxyapatite” 
    ”’ H. Murata, K. Shitara, I. Tanaka, A. Nakahira, T. Mizoguchi, and K. Matsunaga
    J. Phys.:Cond. Matter. 22 (2010)384213.

  75. “Interface atomic structure of LaCuOSe:Mg epitaxial thin film and MgO substrate”
    T. Tohei, T. Mizoguchi, H. Hiramatsu, H. Hosono, and Y. Ikuhara
    Mater. Sci. Eng. B. 173 (2010) 229-233

  76. “Electrical current flow at conductive nanowires formed in GaN thin films by a dislocation template technique” 
    S. Amma, Y. Tokumoto, K. Edagawa, N. Shibata, T. Mizoguchi, T. Yamamoto, and Y. Ikuhara
    App.Phy.Lett.96(2010)193109-1-3

  77. “HAADF-STEM observations of a S13 grain boundary in a-Al2O3 from two orthogonal directions”
    S. Azuma, N. Shibata, S. D. Findlay, T. Mizoguchi, T. Yamamoto, and Y. Ikuhara
    Phil. Mag. Lett. 90 (2010) 539–546

  78. “Mechanism of incorporation of zinc into hydroxyapatite”
    K. Matsunaga, H. Murata, A. Nakahira, and T. Mizoguchi
    Acta Biomaterialia 6 (2010) 2289–2293

  79. “First-principles sliding simulation of Al-terminated Σ13 pyramidal twin grain boundary in α-Al2O3”
    K. Nakamura, T. Mizoguchi, N. Shibata, K. Matsunaga, T. Yamamoto, and Y. Ikuhara
    Phil. Mag. Lett. 90 (2010) 159-172.

  80. “Dissociation Structures of Dislocation and {1-100} Stacking faults of Alumina (a-Al2O3)”
    E. Tochigi, N. Shibata, A. Nakamura, T. Mizoguchi, T. Yamamoto, and Y. Ikuhara
    Act. Mater., (2010) 208-215.

    –2009–

  81. “Fabrication of electrically conductive nanowires using high-density dislocations in AlN thin films”
    Y. Tokumoto, S. Amma, N. Shibata, T. Mizoguchi, T. Yamamoto, Y. Ikuhara
    J. Appl. Phys.106 (2009) 124307-1-4.

  82. “Atomic structure of threading dislocations in AlN thin films”
    Y. Tokumoto, N. Shibata, T. Mizoguhci, T. Yamamoto, and Y. Ikuhara
    Physica B 404 (2009) 4886-4888.

  83. “Direct imaging of doped fluorine in LaFeAsO1-xFx superconductor by atomic scale spectroscopy”
    T. Tohei, T. Mizoguchi, H. Hiramatsu, H. Hosono, and Y. Ikuhara
    Appl. Phys. Lett. (2009) 95 193107-1-3.

  84. “電子エネルギー損失分光(EELS)と第一原理計算を組み合わせた原子・電子構造解析”
    溝口照康,幾原雄一
    セラミックス 9月号 (2009) 702-707

  85. “Atomic-scale segregation behavior of Pr at a ZnO [0001] sigma49 tilt grain boundary”
    Y. Sato, T. Mizoguchi, N. Shibata, T. Yamamoto, T. Hirayama, and Y. Ikuhara
    Phys. Rev. B, 80 (2009) 094114-1-7.

  86. “Magnetic properties of ilmenite-hematite solid-solution thin films: Direct observation of antiphase boundaries and their correlation with magnetism”
    H. Hojo, K. Fujita, T. Mizoguchi, K. Hirao, I. Tanaka, K. Tanaka, and Y. Ikuhara
    Phys. Rev. B., 80 (2009) 075414.

  87. “Transmission electron microscopy and scanning transmission electron microscopy study on B-site cation ordered structures in a (1-x)Pb(Mg1/3Nb2/3)O3-xPbTiO3 single crystal”
    Y. Sato, T. Mizoguchi, N. Shibata, H. Moriwake, T. Hirayama, and Y. Ikuhara
    Appl. Phys. Lett., 95 (2009) 22906-1-3.

  88. “ナノ機能元素の超微細構造解析”
    幾原雄一,柴田直哉,溝口照康,山本剛久
    顕微鏡, 44 (2009) 65-68.

  89. “走査型透過電子顕微鏡法による界面・表面の研究”
    幾原雄一,柴田直哉,溝口照康,阿部英司 *
    まてりあ, 48(5) (2009) 284-290.*

  90. “Atomic-scale imaging of individual dopant atoms in a buried interface”
    N. Shibata, S. D. Findlay, S. Azuma, T. Mizoguchi, T. Yamamoto and Y. Ikuhara
    Nat. Mater., 8 (2009) 654-658.

  91. “First Principles Study on Intrinsic Vacancies in Cubic and Orthorhombic CaTiO3”
    HS. Lee, T. Mizoguchi, T. Yamamoto, and Y. Ikuhara
    Mater. Trans. 50 (2009) 977-983.

  92. “First Principles Calculations of Vacancy Formation Energies in s13 Pyramidal Twin Grain Boundary of α-Al2O3”
    N. Takahashi, T. Mizoguchi, T. Tohei, K. Nakamura, T. Nakagawa, N. Shibata, T. Yamamoto, and Y. Ikuhara
    Mater. Trans., 50 (2009) 1019-1022.

  93. “Interface Structures of Gold Nanoparticles on TiO2 (110)”
    N. Shibata, A. Goto, K. Matsunaga, T. Mizoguchi, T. Yamamoto, and Y. Ikuhara
    Phys. Rev. Lett. 102 (2009) 136105-1-4.

  94. “Excitonic Effects in X-ray Absorption Near Edge Structure From First Principles”
    W. Olovsson, I. Tanaka, T. Mizoguchi, P. Puschnig, and C. Ambrosch-Draxl
    Phys. Rev. B., 79 (2009) 041102(R)-1-4.

  95. “3D Shape and Orientation of Nanoscale Pb Inclusions at Grain Boundaries in Al Observed by TEM and STEM Tomography”
    T. Mizoguchi and U. Dahmen
    Phil. Mag. Lett., 89 (2009) 104-112.

  96. “First principles calculation of spectral feature, chemical shift, and absolute threshold of ELNES and XANES using plane wave pseudopotential method”
    T. Mizoguchi, I. Tanaka, S Gao, and C.J. Pickard
    J. Phys.: Cond. Matter.,21 (2009) 104204-1-6.

  97. “Overlap population diagram for ELNES and XANES: peak assignment and interpretation”
    T. Mizoguchi
    J. Phys.: Cond. Matter.,21 (2009) 104215-1-12.

  98. “First principles calculations of XANES and ELNES: present and future”
    I. Tanaka and T. Mizoguchi
    J. Phys.: Cond. Matter., 21 (2009) 104201-1-9.

  99. “First principles calculation of oxygen-K electron energy loss near edge structure of HfO2”
    T. Mizoguchi, M. Saitoh, and Y. Ikuhara
    J. Phys.: Cond. Matter., 21 (2009) 104212-1-6.

  100. “Microstructure evolution of Ca0.33CoO2 thin films investigated by HAADF-STEM”
    R. Huang, T. Mizoguchi, K. Sugiura, H. Ohta, T. Saito, K. Koumoto, T. Hirayama, and Y. Ikuhara
    *J. Mater. Res. 24 (2009) 279-287.

    –2008–
    *

  101. “Atomic Structure, Electronic Structure, and Defect Energetics in [001](310) Σ5 Grain Boundaries of SrTiO3 and BaTiO3”
    M. Imaeda, T. Mizoguchi, Y. Sato, H.S. Lee, N. Shibata, T. Yamamoto, and Y. Ikuhara
    Phys. Rev. B, 78 (2008) 245320-1-12.

  102. “Direct observations of Ca ordering in Ca0.33CoO2 thin films with different superstructures”
    R. Huang, T. Mizoguchi, K. Sugiura, H. Ohta, T. Saito, K. Koumoto, T. Hirayama, and Y. Ikuhara
    Appl. Phys. Lett., 93 (2008) 181907-1-3.

  103. “Direct Imaging of Reconstructed Atoms on TiO2 (110) Surfaces”
    N. Shibata, A. Goto, S-Y. Choi, T. Mizoguchi, S.D. Findlay, T. Yamamoto and Y. Ikuhara
    Science 322 (2008) 570-573.

  104. “HRTEM observation of dislocation structures in AlN thin films”
    Y. Tokumoto, N. Shibata, T. Mizoguchi, M. Sugiyama, Y. Shimogaki, J-S Yang, T. Yamamoto, and Y. Ikuhara
    J. Mater. Res. 23 (2008) 2188.

  105. “Site dependence and Peak assignment of YBa2Cu3O7 O-K ELNES”
    T. Mizoguchi, M. Varela, J. P. Buban, T. Yamamoto, and Y. Ikuhara
    Phys. Rev. B, 77 (2008) 024504-1-5.

  106. “Atomic Structures of Supersaturated ZnO-Al2O3 Solid Solutions”
    S. Yoshioka, F. Oba, R. Huang, I. Tanaka, T. Mizoguchi, T. Yamamoto
    J. Appl. Phys., 103, 014309-1-9 (2008).

  107. “Critical thickness for giant thermoelectric Seebeck coefficient of 2DEG confined in SrTiO3/SrTi0.8Nb0.2O3 superlattices”
    H. Ohta, Y. Mune, K. Koumoto, T. Mizoguchi, and Y. Ikuhara
    *Thin Solid Films, 516 (2008) 5916-5920.

    –2007–
    *

  108. “X-ray absorption near-edge structures of disordered Mg1-xZnxO solid solutions”
    T. Mizoguchi, A. Seko, M. Yoshiya, H. Yoshida, T. Yoshida, W. Y. Ching, and I. Tanaka
    Phys. Rev. B, 76, 195125-1-7 (2007).

  109. “Enhanced Seebeck coefficient of quantum confined electrons in the SrTiO3/SrTi0.8Nb0.2O3 superlattices”
    Y. Mune, H. Ohata, K. Koumoto, T. Mizoguchi, and Y. Ikuhara
    Appl. Phys. Lett., 91, 192105-1-3 (2007).

  110. “First-principles calculation of defect energetics in cubic-BaTiO3 and a comparison with SrTiO3”
    H-S. Lee, T. Mizoguchi, T. Yamamoto, S-J-L. Kang, and Y. Ikuhara
    Act. Mater. 55, (2007) 6535-6540.

  111. “Yttrium doping effect on oxygen grain boundary diffusion in α-Al2O3”
    T. Nakagawa, I. Sakaguchi, N. Shibata, K. Matsunaga, T. Mizoguchi, T. Yamamoto, H. Haneda and Y. Ikuhara
    Act. Mater. 55, (2007) 6627-6633.

  112. “ELNESと理論計算を組み合わせた結晶界面の原子・電子構造解析”
    溝口照康,佐藤幸生,松永克志,山本剛久,幾原雄一
    顕微鏡, 42(2) (2007) 122-126.

  113. “Grain Boundary Atomic Structures in SrTiO3 and BaTiO3”
    T. Yamamoto, T. Mizoguchi, S.Y. Choi, Y. Sato, N. Shibata, and Y. Ikuhara
    Mater. Sci. Forum. 558-559, (2007) 851-856 .

  114. “Direct measurement of titanium pipe diffusion coefficients in sapphire”
    T.Nakagawa, I. Sakaguchi, N. Shibata, K. Matsunaga, T. Mizoguchi, T. Yamamoto, H. Haneda, and Y. Ikuhara
    Mater. Sci. Forum. 558-559, 939-942 (2007).

  115. “ELNES,XANES及び理論計算を組み合わせた材料研究と将来展望”
    溝口照康
    まてりあ, 46巻6号 (2007) 427-431 .

  116. “First-principles study of grain boundary sliding in a-Al2O3”
    K. Nakamura, T. Mizoguchi, N. Shibata, K. Matsunaga, T. Yamamoto and Y. Ikuhara
    Phys. Rev. B.75, (2007) 184109 .

  117. “Theoretical tensile deformation of Σ13 pyramidal twin grain boundary in alumina”
    K. Nakamura, T. Mizoguchi, N. Shibata, K.Matsunaga, T. Yamamoto and Y. Ikuhara
    Key. Eng. Mater. 352, 21-24 (2007).

  118. “Multifunctionality in PbVO3 Thin Films”
    L. W. Martin, A. Kumar, S. Denev, Q. Zhan, M. Chi, T. Mizoguchi, J. B. Kortright, J. Kreisel, N. Browning, V. Gopalan, R. Ramesh, and Y. Suzuki
    Appl. Phys. Lett., 90, (2007) 062903-1-3.

  119. “Giant thermoelectric response originating from 2DEG localized in a unit cell layer of SrTiO3”
    Hi. Ohta, S.W. Kim, Y. Mune, T. Mizoguchi, K. Nomura, S. Ohta, T. Nomura, Y. Nakanishi, Y. Ikuhara, M. Hirano, H. Hosono, K. Koumoto
    *Nature Materials, 6, (2007) 129-134.

    –2006–
    *

  120. “Chemical bonding, interface strength, and oxygen-K electron energy loss near edge structure of Cu/Al2O3 interface”
    T. Mizoguchi, T. Sasaki, K. Matsunaga, S. Tanaka, T. Yamamoto, M. Kohyama, and Y. Ikuhara
    Phys. Rev. B 74, (2006) 235408-1-10

  121. “Atomic structure and relaxation behavior at AlN(0001)/Al2O3(0001) interface”
    Y. Tokumoto, T. Mizoguchi, Y. Sato, N. Shibata, T. Yamamoto, and Y. Ikuhara.
    J. Jpn. Ceram. Soc. 143, (2006) , 1018-1021

  122. “Peak assignments of ELNES and XANES using overlap population diagrams”
    T. Mizoguchi, K. Tatsumi, and I. Tanaka
    Ultramicroscopy, 106 (2006) 1120-1128.

  123. “First principles multi-electron calculations for L2,3 ELNES/XANES of 3d transition metal monoxides”
    H. Ikeno, T. Mizoguchi, Y. Koyama, Y. Kumagai, and I. Tanaka
    Ultramicroscopy, 106 (2006) 970-975.

  124. “Role of Pr Segregation in Acceptor-State Formation at ZnO Grain Boundaries”
    Y. Sato, J. P. Buban, T. Mizoguchi, N. Shibata, M. Yodogawa, T. Yamamoto, and Y. Ikuhara
    Phys. Rev. Lett. 97 (2006) 106802-1-4

  125. “Bonding nature of metal/oxide incoherent interfaces by first-principles calculations”
    K. Matsunaga, T. Sasaki, N. Shibata, T. Mizoguchi, T. Yamamoto, and Y. Ikuhara
    Phys. Rev. B.74 (2006) 125423-1-8

  126. “First-principles study on incident direction, individual site character, and atomic projection dependences of ELNES for perovskite compounds”
    T. Mizoguchi, JP. Buban, K. Matsunaga, T. Yamamoto, and Y. Ikuhara
    *Ultramicroscopy, 106 (2006) 92-104

    ***This paper has an erratum. The direction of momentum transfer in relation to c-axis is opposite in Fig.9.***
    Erratum: “Erratum to: “First-principles study on incident direction, individual site character, and atomic projection dependences of ELNES for perovskite compounds”: [Ultramicroscopy 106(1) (2006) 92–104]”, 
    Teruyasu Mizoguchi, James P. Buban, Katsuyuki Matsunaga, Takahisa Yamamoto and Yuichi Ikuhara,
    Ultramicroscopy, 107 (2007) 703.

    –2005–

  127. “Sr vacancy segregation at SrTiO3 grain boundary by heat treatment”
    T. Mizoguchi, Y. Sato, J.P. Buban, K. Matsunaga, T. Yamamoto, and Y. Ikuhara
    Appl. Phys. Lett. 87 (2005) 241920-1-3.

  128. “解説:理論計算に基づいたELNESの解釈 II” (Japanese review) (日本顕微鏡学会和文誌論文賞(2007))
    田中 功,溝口照康
    顕微鏡,40 (2005) 172-175.

  129. “解説:理論計算に基づいたELNESの解釈 I” (Japanese review) (日本顕微鏡学会和文誌論文賞(2007))
    田中 功,溝口照康
    顕微鏡,40 (2005) 116-119.

  130. “First principles multi-electron calculations of Ni L2,3 NEXAFS/ELNES for LiNiO2 and related compounds”
    H. Ikeno, I. Tanaka, Y. Koyama, T. Mizoguchi, and K. Ogasawara
    Phys. Rev. B., 72 (2005) 075123-1-8.

  131. “Arrangement of multiple structural units in ZnO tilt grain boundary”
    Y. Sato, T. Mizoguchi, F. Oba, Y. Ikuhara, and T. Yamamoto
    Phys. Rev. B., 72 (2005) 064109-1-7.

  132. “XANES and ELNES in Ceramic Science” (Most Accessed Article 2005)
    I. Tanaka, T. Mizoguchi, and T. Yamamoto
    J. Am. Ceram. Soc. (Feature article), 88 (2005) 2013-2029.

  133. “Pre-edge fine structures in Ti K-edge X-ray absorption spectra of SrTiO3 and BaTiO3”
    T. Yamamoto, T. Mizoguchi, and I. Tanaka
    Phys. Rev. B., 71 (2005) 245113.

  134. “Atomic and electronic structure of [0001]/(-1-230) S7 symmetric tilt grain boundary in undoped ZnO bicrystal with linear current-voltage characteristic”
    Y. Sato, T. Mizoguchi, F. Oba, M. Yodogawa, T. Yamamoto, and Y. Ikuhara
    J. Mater. Sci., 40 (2005) 3059.

  135. “Electronic Structure of Lithium Nickel Oxides by Electron Energy Loss Spectroscopy”
    Y. Koyama, T. Mizoguchi, H. Ikeno, and I. Tanaka
    J. Phys. Chem. B, 109 (2005) 10749

  136. “Characterization of nano-textured AlN thin films by X-ray absorption near edge structures (XANES)”
    T. Suga, S. Kameyama, S. Yoshioka, T. Yamamotoa, I. Tanaka, and T. Mizoguchi
    Appl. Phys. Lett., 86 (2005) 163113.

  137. “解説:ELNESの理論解析” (Japanese review)
    溝口照康,田中 功
    日本結晶学会誌 47 (2005) 73.

  138. “Distribution of solute atoms in b- and spinel- SiAlONs by Al-K x-ray absorption near edge structures”
    K. Tatsumi, T. Mizoguchi, S. Yoshioka, T. Yamamoto, T. Suga, T. Sekine, and I. Tanaka
    Phys. Rev. B, 71 (2005) 033202.

  139. “電子線エネルギー損失スペクトルを用いたCu/Al2O3(0001)界面の局所化学結合状態解析”
    佐々木健夫,溝口照康,松永克志,田中真悟,山本剛久,香山正憲,幾原雄一
    日本金属学会誌,69 (2005) 86.

  140. “First-Principles Calculations of Titanium Dopants in Alumina”
    K. Matsunaga, T. Mizoguchi, A. Nakamura, T. Yamamoto, and Y. Ikuhara
    Materials Science Forum, 475-479 (2005) 3095.

  141. “Atomic and electronic structures of Cu/sapphire interfaces by HRTEM and EELS analyses”
    T. Sasaki, T. Mizoguchi, K. Matsunaga, S. Tanaka, T. Yamamoto, M. Kohyama and Y. Ikuhara
    Materials Science Forum, 475-479 (2005) 3859.

  142. “Theoretical and experimental Ti-K NEXAFS of various Ti-oxides”
    T. Mizoguchi, M. Sakurai, A. Nakamura, T. Sasaki, Y. Sato, K. Matsunaga, T. Yamamoto, and Y. Ikuhara
    Materials Science Forum, 475-479 (2005) 3119.

  143. “HRTEM and EELS characterization of atomic and electronic structures in Cu/a-Al2O3 interfaces”
    T. Sasaki, T. Mizoguchi, K. Matsunaga, S. Tanaka, T. Yamamoto, M. Kohyama and Y. Ikuhara
    *Appl. Surf. Sci., 241 (2005) 87.

    –2004–
    *

  144. “Valence state of Ti in conductive nano-wires in sapphire”
    T. Mizoguchi, M. Sakurai, A. Nakamura, K. Matsunaga, I. Tanaka, T. Yamamoto, and Y. Ikuhara
    Phys. Rev. B, 70 (2004) 153101.

  145. “First-principles calculations of ELNES/XANES of selected wide-gap materials: Dependence on crystal structure and orientation”
    T. Mizoguchi, I. Tanaka, S. Yoshioka, M. Kunisu, T. Yamamoto, and W. Y. Ching
    Phys. Rev. B, 70 (2004) 45103.

  146. “Si 基板上に形成した Al2O3 薄膜の ELNES 解析”
    溝口照康,木本浩司,田中 功
    *まてりあ 43 (2004). *

  147. “First-principles calculation of L3 x-ray absorption near edge structures (XANES) and electron energy loss near edge structures (ELNES) of GaN and InN polymorphs”
    T. Mizoguchi, T. Yamamoto, T. Suga, M. Kunisu, I. Tanaka, and H. Adachi
    Materials Transactions, 45 (2004) 2023.

  148. “Theoretical investigation of Al K-edge X-ray absorption spectra of Al, AlN and Al2O3”
    M. Mogi,T. Yamamoto, T. Mizoguchi, K. Tatsumi, S. Yoshioka, S. Kameyama, I. Tanaka, and H. Adachi
    Materials Transactions, 45 (2004) 2031.

  149. “First principles study of core-hole effect on fluorine K-edge X-ray absorption spectra of MgF2 and ZnF2”
    T. Yamamoto, I. Tanaka, H. Adachi, T. Mizoguchi, K. Tatsumi, Y. Muramatsu, E. M. Gullikson, and R. C. C. Perera
    Materials Transactions, 45 (2004) 1991.

  150. “X-ray Absorption Near Edge Structures of Silicon Nitride Thin Film by Pulsed Laser Deposition”
    T. Suga, T. Mizoguchi, M. Kunisu, K. Tatsumi, T. Yamamoto, I. Tanaka, and T. Sekine
    Materials Transactions, 45 (2004) 2039.

  151. “Identification of Native Defects around Grain Boundary in Pr-doped ZnO Bicrystal using ELNES and First-principles Calculations”
    Y. Sato, T. Mizoguchi, F. Oba, M. Yodogawa, T. Yamamoto, and Y. Ikuhara
    Appl. Phys. Lett., 84 (2004) 5311.

  152. “Positron annihilation study of formation of Mg vacancy in MgO”
    M. Mizuno, Y. Inoue, K. Sugita, H. Araki, Y. Shirai, T. Mizoguchi, I. Tanaka, H. Adachi
    Mater. Sci. Forum, 445-4 (2004) 153.

  153. “Formation of titanium-solute clusters in alumina: A first-principles study”
    K. Matsunaga, T. Mizoguchi, A. Nakamura, T. Yamamoto, and Y. Ikuhara
    Appl. Phys. Lett., 84 (2004) 4795.

  154. “The formation of a rock-salt type ZnO thin film by low-level alloying with MgO”
    M. Kunisu, I. Tanaka, T. Yamamoto, T. Suga, and T. Mizoguchi
    *J. Phys.: Cond. Matter., 16 (2004) 3801.

    –2003–
    *

  155. “Identification of ultradilute dopants in ceramics”
    I.Tanaka, T. Mizoguchi, M. Matsui, S. Yoshioka, H. Adachi, T. Yamamoto, T. Okajima, M. Umesaki, W. Y. Ching, Y. Inoue, M. Mizuno, H. Araki, and Y. Shirai
    Nature Materials 2 (2003) 541.

  156. “Theoretical prediction of ELNES/XANES and chemical bondings of AlN polytypes”
    T. Mizoguchi, I. Tanaka, M. Kunisu, M. Yoshiya, H. Adachi and W. Y. Ching
    Micron, 34 (2003) 249.

  157. “解説:電子線エネルギー損失スペクトルの理論計算による解釈”
    溝口照康,田中 功,足立裕彦
    まてりあ, 42 (2003) 207-213.

  158. “Coordination and interface analysis of atomic-layer-deposition Al2O3 on Si(001) using energy-loss near-edge structures”
    K. Kimoto, Y. Matsui, T. Nabatame, T. Yasuda, T. Mizoguchi, I. Tanaka, and A. Toriumi
    Appl. Phys. Lett. 83 (2003) 4306.

  159. “The study of Al-L23 ELNES with resolution-enhancement software and first-principles calculation”
    K. Kimoto, K. Ishizuka, T. Mizoguchi, I. Tanaka, and Y. Matsui
    *J Electron Microsc 52 (2003) 299.

    –2002–
    *

  160. “First principles calculation of ELNES by LCAO methods”
    I.Tanaka, T. Mizoguchi, M. Yoshiya, K. Ogasawara, H. Adachi, S-Di Mo, and W.Y. Ching
    *J. Electron Microscopy, (2002) S107.

    –2001–
    *

  161. “Electron energy loss near-edge structures of cubic Si3N4”
    I. Tanaka,T. Mizoguchi,T. Sekine, H. He, K. Kimoto, T. Kobayashi, Shang-Di Mo, and W.Y. Ching
    Appl. Phys. Lett. 78 (2001) 2134.

  162. “Defect and electronic structure of TiSi2 thin films produced by co-sputterings. part II: chemical bonding and electron energy-loss near-edge structures”
    T. Mizoguchi, I. Tanaka, M. Mizuno, H. Adachi T. Hashimoto, H. Inui and M. Yamaguchi
    Act. Mater. ,49 (2001) 2321.

  163. “Defect and electronic structure of TiSi2 thin films produced by co-sputterings. part I: defect analysis by transmission electron microscopy”
    H. Inui, T. Hashimoto, K. Tanaka, I. Tanaka, T. Mizoguchi, H. Adachi, and M. Yamaguchi
    Act. Mater. ,49 (2001) 83.

  164. “Electron-energy-loss near edge structures of six-fold-coordinated Zn in MgO”
    T. Mizoguchi, M. Yoshiya, J. Li, F. Oba, I. Tanaka and H. Adachi
    *Ultramicroscopy 86 (2001) 363.

    –2000–
    *

  165. “解説:電子顕微鏡を用いた電子分光の理論計算による解釈”
    田中 功,溝口照康,吉矢真人,岩田貴普,小笠原一禎,足立裕彦
    *電子顕微鏡 35 (2000) 221-229. *

  166. “3d遷移金属-ホウ素系におけるB – K励起端ELNES(電子線エネルギー損失分光励起端近傍微細構造)の理論計算”
    巽 一厳,溝口照康,吉矢真人,田中 功,足立裕彦
    日本金属学会誌 64 (2000) 527-34.

  167. “Core-hole effects on theoretical electron-energy-loss near-edge structure and near-edge x-ray absorption fine structure of MgO”
    T. Mizoguchi, I. Tanaka, M. Yoshiya, F. Oba, K. Ogasawara, H. Adachi
    *Phys. Rev. B, 61 (2000) 2180.

    *–1999–

  168. “Theoretical calculation of oxygen K electron-energy-loss near-edge structures of Si-doped MgO”
    T. Mizoguchi, I. Tanaka, M. Yoshiya, F. Oba, H. Adachi
    J. Phys.: Condens. Matter., 11 (1999) 5661.

  169. “First-principles calculations of electron-energy-loss near-edge structure and near-edge x-ray-absorption fine structure of BN polytypes using model clusters”
    I. Tanaka, H. Araki, M. Yoshiya, T. Mizoguchi, F. Oba, H. Adachi
    Phys. Rev B, 60 (1999) 4944.