Kyushu University Academic Staff Educational and Research Activities Database
List of Papers
Ryo Teranishi Last modified date:2020.07.04

Professor / Functional Materials Engineering / Department of Materials Science and Engineering / Faculty of Engineering


Papers
1. S. Fujinaka, Y. Sato, R. Teranishi, K. Kaneko, Understanding of scanning-system distortions of atomic-scale scanning transmission electron microscopy images for accurate lattice parameter measurements, Journal of Materials Science, 10.1007/s10853-020-04602-w, 55, 19 (2020) 8123-8133., 2020.07, Atomic-scale scanning transmission electron microscopy (STEM) imaging has opened up the possibility of studying the local lattice parameters of crystalline materials. To ensure more accurate measurements, low-frequency distortions of the images should be properly calibrated, which requires a better understanding of their causes. Although the major possible causes are sample drift and the scanning systems of microscopes, their effects are intricate because the rates of sample drifts differ in respective measurements. In the present study, low-frequency distortions of STEM images and their dependence on scan rotations were evaluated by measuring the lattice parameters of a reference specimen, strontium titanate. The distortions due to sample drifts and the scanning system of a microscope were separately calculated and corrected using affine transformations. In the as-observed images, the length scales in the x and y directions were underestimated by 0.4–1.2% and 2.7–3.6%, respectively, with shear distortions of 0.6°–1.2°, and the magnitudes of the underestimation and shear distortions were dependent on the scan rotations. On the basis of these findings, a methodology was proposed for the correction of distortions for accurate measurement of the lattice parameters of materials..
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3. Y. Kawahara, R. Teranishi, C. Takushima, J. Hamada, K. Kaneko, Effect of Nitrogen Addition on the Stacking-Fault energies in Si-added Austenitic Stainless Steel, Tetsu-To-Hagane/Journal of the Iron and Steel Institute of Japan, 106, 11 (2020) in press., 2020.06.
4. T. Maeda, Y. Kawahara, K. Kinoshita, H. Sawada, J. Takahashi, R. Teranishi, K. Kaneko, An answer to the carbon cluster in low-temperature aged ferritic low-carbon steel, Materials Characterization, https://doi.org/10.1016/j.matchar.2019.110006, 159 (2020) 110006 (6pp)., 2020.02, The morphology and crystal structure of the carbon cluster in a low-temperature aged low-carbon ferritic steel were clarified by performing conventional and in-situ TEM, and atomically-resolved ADF-STEM observation. The carbon cluster grow parallel to<001>direction of the matrix, whose morphology was presumed to be either disk or plate. Lattice constant of the carbon cluster was measured by peak fitting of atomic columns observed by ADF-STEM. The result clarified that the structure of the carbon cluster was martensite-like body-centered tetragonal (bct) structure. This martensite-like bct structure suggested that the carbon cluster was supersaturated with carbon atoms occupying specific octahedral sites..
5. Y. Sato, R. Miyauchi, M. Aoki, S. Fujinaka, R. Teranishi, K. Kaneko, Large Electric-Field-Induced Strain Close to the Surface in Barium Titanate Studied by Atomic-Scale In Situ Electron Microscopy, Physica Status Solidi - Rapid Research Letters, 10.1002/pssr.201900488, 14, 1 (2020) 1900488-1-8., 2020.01, Measuring the lattice parameters of crystalline materials under an electric field at the nanoscale improves the understanding of how electronics operate. Herein, atomic-scale in situ electron microscopy is used to measure the lattice parameters near the surface of barium titanate under an electric field, which is varied to understand how it changes the lattice parameters. Applying an electric field along the a axis does not cause domain switching. Instead, as the electric field increases, so as well does the c-axis lattice parameter (c), whereas the a-axis lattice parameter (a) remains nearly constant. The c value increases as much as 4.5 − 7.0 pm at ±13.8 kV cm−1, which is beyond the measurement precision. The increases are localized near the surface and the c value recovers slowly, which suggests that the observed phenomena are related to surface effects and slow processes. These results cannot be explained by electrostrain, even when considering additional effects such as mechanical constraint, inclination of electric field, and surface and size effects. Instead, the results are explained using a combination of Joule heating, vacancy introduction, and surface effects..
6. Y. Sato, M. Aoki, R. Teranishi, K. Kaneko, M. Takesada, H. Moriwake, H. Takashima, Y. Hakuta, Atomic-Scale Observation of Titanium-Ion Shifts in Barium Titanate Nanoparticles Implications for Ferroelectric Applications, ACS Applied Nano Materials, 10.1021/acsanm.9b01221, 2, 9 (2019) 5761-5768., 2019.09, Ferroelectric nanoparticles (NPs) have attracted considerable attention owing to their size effect on the ferroelectricity and their possible application toward future electronic devices such as multilayer ceramic capacitors and ferroelectric random access memory. The ferroelectricity disappears for NPs smaller than the critical size, which has been an obstacle for the development of materials. Although the fundamental mechanisms of the size effect should be clarified to overcome this problem, the understanding has been made ambiguous by the fact that NPs of different morphologies prepared by different methods exhibit various critical sizes, which indicates that more investigations should be conducted on the appearance/disappearance of ferroelectricity in NPs. To gain insight into the appearance of ferroelectricity, atomic-scale characterizations are beneficial because the ferroelectricity is closely related to the atomistic structures. In the present study, atomic-scale scanning transmission electron microscopy (STEM) observations were conducted for a barium titanate NP prepared by a hydrothermal method, using a supercritical continuous-flow reaction system. Two STEM images were obtained with different foci: one was observed by focusing an electron probe on the top surface of the NP and the other on the middle. Different directions of titanium-ion shifts were observed near the top surface and in the middle of the NP, which could be explained by STEM image simulations using structural models with the presence of an additional region with a different titanium-ion-shift direction. The present findings imply that this NP should exhibit the ferroelectricity and contains two regions of different polarization directions..
7. T. Miyajima, R. Teranishi, S. Yasuyama, Y. Sato, K. Kaneko, V. Petrykin, S. Lee, T. Okada, S. Awaji, A. Matsumoto, Influence of joint pressure on superconducting and mechanical properties for jointed GdBa2Cu3Oy coated conductors via precursor films, Japanese Journal of Applied Physics, https://doi.org/10.7567/1347-4065/ab0727, 58 (2019) 050907 (5pp)., 2019.04, There has been demand to lengthen superconducting joints of REBa2Cu3Oy coated conductors to realize magnet applications. In this work, jointed samples of GdBa2Cu3Oy coated conductors were prepared by crystallizing precursor films deposited by a pulsed laser deposition method under mechanical pressures, and influence of the pressures on superconducting and mechanical properties were investigated. While areal fraction and shearing stress of the joints were increased by increasing the pressure, superconducting properties were degraded. X-ray diffraction analysis indicated that the degradation was due to the formation of a secondary phase and decrease of oxygen contents in GdBa2Cu3Oy..
8. T. Miyajima, R. Teranishi, S. Yasuyama, Y. Sato, K. Kaneko, T. Maeda, M. Ochi, K. Hiramatsu, M. Nakamura, V. Petrykin, S. Lee, T. Okada, S. Awaji, Microstructures of superconducting joint between GdBa2Cu3Oy-coated conductors via additionally deposited precursor films, Japanese Journal of Applied Physics, https://doi.org/10.7567/1347-4065/ab0f23, 58 (2019) 050913 (5pp)., 2019.04, Superconducting joints have been demanded to lengthen REBa2Cu3Oy -coated conductors for electrical power applications. In this study, we propose a new joint method for GdBa2Cu3Oy -coated conductors via crystallizing precursor films additionally deposited on the conductors. Two GdBa2Cu3Oy -coated conductors with precursor films were placed in a face-to-face manner in a furnace, then they were crystallized under mechanical pressure to joint them. A superconducting joint was achieved with a high critical temperature of 90.8 K. Microstructural observation by a transmission electron microscope revealed that there were only a few pores at the joint boundary without a secondary phase having c-axis-oriented GdBa2Cu3Oy..
9. M. Ochi, K. Sato, R. Teranishi, Y. Sato, J. Hamada, C. Takushima, T. Hara, K. Kaneko, Nanostructural analyses of Intra- And intergranular precipitates in high-temperature heat-treated nitrogen-added austenitic stainless steel, Tetsu-To-Hagane/Journal of the Iron and Steel Institute of Japan, 10.2355/tetsutohagane.TETSU-2018-067, 105, 4 (2019) 8-15., 2019.04, More than one thousand intragranular and intergranular precipitates of nitrogen-added austenitic stainless steel, SUSXM15J1, were characterized by FIB-SEM serial-sectioning tomography, by conventional transmission electron microscopy (TEM) and by scanning transmission electron microscopy (STEM). All of intragranular precipitates were found nitrided to form dichromium nitride, Cr2N, Two types of intergranular precipitates were found Cr2N and Cr3Ni2Si(N), and some of them were grown and jointed due to the additional heat treatment during the tensile test at 1173 K. which probably contributed to its high-temperature strength..
10. R. Teranishi, K. Hiramatsu, S. Yasuyama, T. Miyajima, Y. Sato, K. Kaneko, S. Awaji, A. Matsumoto, M. Inoue, Superconducting joint of GdBa2Cu3Oy coated conductors by crystallization of additionally deposited precursor layer, IEEE Trans. Appl. Supercond., 10.1109/TASC.2019.2902693, 29, 5 (2019) 6602904-1-4., 2019.03, A superconducting joint of REBa2Cu3Oy (REBCO) coated conductors (CCs) has been demanded strongly to fabricate long length CCs for high field magnet applications such as nuclear magnetic resonance and magnetic resonance imaging. In the previous reports of superconducting joint, specimens of REBCO CCs were jointed via melting REBCO phases or via solid state diffusion of REBCO phases. In our study, we propose a new method of joint for REBCO CCs. A precursor layer is additionally deposited on GdBCO CC by a metal organic deposition process, and then two pieces of them are stuck together face-To-face and crystallized the precursor to form 123 phase under mechanical pressure in an oxygen atmosphere. The microstructures and temperature dependence of resistance of the jointed sample are characterized by a cross-sectional transmission electron microscopy (TEM) and a four-probe method, respectively. As a result, TEM observation reveals that two CCs are jointed together without formation of secondary phases at the joint interface. Also, temperature dependence of resistance shows Tc onset and Tc zero of 93 K and 82 K, respectively. Consequently, a superconducting joint has been completed successfully. The concept of this method is combining film growth and solid-state diffusion for the additionally deposited precursor layers..
11. T. Maeda, K. Kaneko, T. Namba, Y. Koshino, Y. Sato, R. Teranishi, Y. Aruga, Structural and compositional study of precipitates in under-aged Cu-added Al-Mg-Si alloy, Scientific Reports, https://doi.org/10.1038/s41598-018-35134-8, 8 (2018) 16629 (7pp)., 2018.11, Atomic scale characterization of fine precipitates in an under-aged Cu added Al-Mg-Si alloy was carried out by combination of atomically-resolved annular dark-field scanning transmission electron microscopy and energy dispersive X-ray spectroscopy. Two types of precipitates were observed in the alloy. In the case of ordered β” precipitates, β” was proposed as Mg5-xAl2+xSi4 (x ≈ 1) with solute Cu atoms replacing Al site of β” precipitate. In the case of disordered precipitates, the precipitates were found to consist of β” sub-unit cells, three-fold symmetric structure without Cu atoms, Cu containing structures termed as “Cu sub-unit cluster”, and Q’ sub-unit cells. Among these structures, the morphologies of three-fold symmetric structure without Cu atoms, Cu sub-unit cluster, and Q’ sub-unit cell were almost the same, so that these structures should be the clusters of Q’ phase. Since the areal density, length and diameter of precipitates were almost equal between Cu free Al-Mg-Si alloy and Cu added Al-Mg-Si alloy, the increase of hardness by Cu addition should be due to the precipitation of Cu related precipitates, such as Cu sub-unit clusters and Q’ sub-unit cells..
12. M. Ochi, K. Sato, R. Teranishi, Y. Sato, J. Hamada, C. Takushima, T. Hara, K. Kaneko, Nanostructural Analyses of Intra- and Intergranular Precipitates in High-temperature Heat-treated Nitrogen-added Austenitic Stainless Steel, ISIJ International, https://doi.org/10.2355/isijinternational.ISIJINT-2017-756, 58 (2018) 1459-1466., 2018.08, More than one thousand intragranular and intergranular precipitates of nitrogen-added austenitic stainless steel, SUSXM15J1, were characterized by FIB-SEM serial-sectioning tomography, by conventional transmission electron microscopy (TEM) and by scanning transmission electron microscopy (STEM). All of intragranular precipitates were found nitrided to form dichromium nitride, Cr2N, two types of intergranular precipitates were found Cr2N and Cr3Ni2Si(N), and some of them were grown and jointed due to the additional heat treatment during the tensile test at 1 173 K, which probably contributed to its high-temperature strength..
13. R. Teranishi , K. Konya, M. Inoue, Y. Sato, K. Kaneko, T. Izumi, S. Awaji, Study of Growth Process for YBa2Cu3Oy Coated Conductors With BaZrO3 Flux Pinning Centers by Monitoring Electrical Conductivity, IEEE Trans. Appl. Supercond., https://doi.org/10.1109/TASC.2018.2818752, 28 (2018) 7501305-1-5, 2018.05, YBa2Cu3Oy (YBCO) coated conductors were prepared by a metal organic deposition method using a chemical solution with tri-fluoroacetate salts. A salt of Zr was also added into the solution to introduce BaZrO3 (BZO) flux pinning centers into the YBCO films. The solution was coated on CeO2/LaMnO3/MgO/Gd2Zr2O7/Hastelloy substrates, and the coated films were crystallized at 1053 K. In this work, an additional holding temperature step was introduced during the crystallization of the films at 873 K to miniaturize the size of BZO nanoparticles, and then the effect of the heat treatment on the electrical conductivity of the film during the crystallization was examined. It was found that the conductivity of the film with the additional holding temperature step was approximately 1.7 times higher than that of the film fabricated without the one when the film temperature reached the crystallization temperature of 1053 K. In addition, the period until the conductivity saturated was three times smaller for the film fabricated with the additional holding temperature step. These results indicate that the growth temperature of YBCO shifts down and the holding period for YBCO crystallization can be shorter by introducing an additional holding temperature step..
14. M. Aoki, Y. Sato, R. Teranishi, K. Kaneko, Measurement of Barium Ion Displacement Near Surface in a Barium Titanate Nanoparticle by Scanning Transmission Electron Microscopy, Applied Microscopy, https://doi.org/10.9729/AM.2018.48.1.27, 48 (2018) 27-32., 2018.03, Barium titanate (BaTiO3) nanoparticle is one of the most promising materials for future
multi-layer ceramic capacitor and ferroelectric random access memory. It is well known
that electrical property of nanoparticles depends on the atomistic structure. Although
surface may possibly have an impact on the atomistic structure, reconstructed structure
at the surface has not been widely investigated. In the present study, Ba-ion position
near surface in a BaTiO3 nanoparticle has been quantitatively characterized by scanning
transmission electron microscopy. It was found that some Ba ions at the surface were
greatly displaced in non-uniform directions.
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16. Y. Sato, T. Gondo, H. Miyazaki, R. Teranishi, K. Kaneko, Electron microscopy with high accuracy and precision at atomic resolution: In-situ observation of a dielectric crystal under electric field, Applied Physics Letters, 10.1063/1.4986361, 111 (2017) 062904-1-062904-5., 2017.08, Measuring atomic positions in-situ under an external electric field can provide important insights into the structure-property relationship of electronic materials. In this paper, we demonstrate picometer level accuracy and precision of atomic positions in single-crystalline SrTiO3 under an electric field through annular dark-field scanning transmission electron microscopy. By carrying out electrical biasing in-situ electron microscopy at the atomic scale, the lattice constant was measured with a precision of 9.0 pm under an electric field of ±0.57 kV/cm. In addition, the Ti position in the SrTiO3 unit cell was measured with an accuracy of 20.0 pm at a confidence level of greater than 93%. This opens up a possibility of characterizing functional electronic devices at atomic resolution under operative conditions..
17. Y. Miyake, Y. Sato, R. Teranishi, K. Kaneko, Effect of heat treatments on the microstructure and formability of Al–Mg–Mn–Sc–Zr alloy, Micron, 10.1016/j.micron.2017.07.003, 101 (2017) 151-155., 2017.06, Microstructures and formability of scandium and zirconium added Al-Mg-Mn alloy sheets with various heating conditions were examined to improve their mechanical properties. Formability of these samples were judged by the Lankford value, r-value. It was possible to fabricate mechanically balanced Al-Mg-Mn-Sc-Zr alloy with high hardness 76.2 Hv and with high formability with r = 1.2, by not only adding scandium and zirconium but also optimizing the heat treatment conditions.
18. T. Maeda, K. Kaneko, K. Yamada, A. Roy, Y. Sato, R. Teranishi, T. Kato, T. Izumi, Y. Shiohara, Nanostructural characterization of artificial pinning centers in PLDprocessed REBa2Cu3O7-δ films, Ultramicroscopy, 10.1016/j.ultramic.2016.11.015, 176 (2017) 151-160., 2017.05, In the context of high temperature superconductors, pulsed laser deposition derived GdBa2Cu3O7-δ sample with BaHfO3 nanoparticles has been reported to achieve high current density and good IC-B-θ characteristics at high temperatures. Herein, we have carried out a thorough nanostrucural characterization of BaHfO3 nanoparticles embedded in GdBCO matrix using scanning transmission electron microscopy, with an emphasis on the dispersion behavior, morphologies and nanostrain, to understand the role of BaHfO3 nanoparticles..
19. M. Ochi, R. Kawano, T. Maeda, Y. Sato, R. Teranishi, T. Hara, M. Kikuchi, K. Kaneko, Three-dimensional studies of intergranular carbides in austenitic stainless steel, Microscopy, 10.1093/jmicro/dfw103, 66, 2 (2017) 89-94., 2017.04, A large number of morphological studies of intergranular carbides in steels have always been carried out in two dimensions without considering their dispersion manners. In this article, focused ion beam serial-sectioning tomography was carried out to study the correlation among the grain boundary characteristics, the morphologies and the dispersions of intergranular carbides in 347 austenitic stainless steel. More than hundred intergranular carbides were characterized in three dimensions and finally classified into three different types, two types of carbides probably semi-coherent to one of the neighboring grains with plate-type morphology, and one type of carbides incoherent to both grains with rod-type morphology. In addition, the rod-type carbide was found as the largest number of carbides among three types. Since large numbers of defects, such as misfit dislocations, may be present at the grain boundaries, which can be ideal nucleation sites for intergranular rod-type carbide precipitation..
20. R. Urakami, Y. Sato, M. Ogushi, T. Nishiyama, A. Goto, K. Yamada, R. Teranishi, K. Kaneko, M. Kitayama, Phase transformation and interface segregation behavior in Si3N4 ceramics sintered with La2O3–Lu2O3 mixed additive, Journal of American Ceramics Society, 10.1111/jace.14663, 100, 3 (2017) 1231-1240., 2017.03, Microstructure and mechanical property of silicon nitride (Si3N4) ceramic are strongly dependent on the selection of sintering additives. When rare-earth (RE) oxide is used as the sintering additive, segregation of RE ions at interface between Si3N4 grain and intergranular glassy film (IGF) is believed to play a critical role. Although the ionic radius of RE ion is known to be an empirical parameter to modify the mechanical property, the correlation between the segregated ions and their ionic radii is still under controversy. In order to address this issue, (i) rate of α-β phase transformation and (ii) segregation behavior at the interface were studied for Si3N4 ceramics sintered using mixture of La2O3 and Lu2O3 as additives in this study. Specimens of Lu content 30% and higher exhibited lower activation energies for the α-β phase transformation as compared with those of Lu content 20% and lower. In terms of the segregation behavior, La was preferably segregated at one site and Lu at the other site along β-Si3N4/IGF interface in the specimens of Lu content 30% and higher. It is understood from these results that Lu segregation site should be more closely related with grain growth..
21. H. Horita, R.Teranishi, K. Yamada, K. Kaneko, Y. Sato, K. Otaguro, T. Nishiyama, T. Izumi, S. Awaji, Miniaturization of BaHfO3 nanoparticles in YBa2Cu3Oy coated conductors using a two-step heating process in the TFA-MOD method, Superconductor Science and Technology, 10.1088/1361-6668/30/2/025022, 30, 2 (2017) 025022(8pp)., 2017.02, The critical current density (J c) of YBa2Cu3Oy (YBCO)-coated conductors in a magnetic field can be enhanced by the doping of flux-pinning centers in a metal organic deposition (MOD) process with trifluoroacetates (TFA). The size of these flux-pinning centers should be less than 10 nm to achieve commercial use due to the coherence length of YBCO at 77 K. In this paper, BaHfO3 (BHO) nanoparticles were introduced into YBCO films using the TFA-MOD method. Microstructures and the J c properties of the films prepared using a two-step heating process at crystallization were compared with film prepared using a conventional one-step heating process. The two-step heating process produced 15 nm average-sized BHO nanoparticles in the film compared to 19 nm nanoparticles in a film prepared using a one-step process. It was revealed that the size of nanoparticles in the films could be miniaturized by improving the heating processes in the MOD method, and the miniaturized nanoparticles could contribute to increased J c in magnetic fields. The mechanism of miniaturization is also discussed based on microstructure observations of quenched films..
22. Y. Kasuya, Y. Sato, R. Urakami, K. Yamada, R. Teranishi, K. Kaneko, Electron microscopic analysis of surface damaged layer in Pb(Mg1/3Nb2/3)O3–PbTiO3 single crystal, Japanese Journal of Applied Physics, 10.7567/JJAP.56.010312, 56, 1 (2017) 010312 (4pp)., 2017.01, Single crystals of lead magnesium niobate-lead titanate, Pb (Mg1/3Nb2/3)O3-PbTiO3 (PMN-PT), have superior dielectric and piezoelectric properties suitable for medical ultrasound imaging. Imaging devices with superior performance can be manufactured from thinner PMN-PT single crystals by mechanical dicing and/or polishing. Although it is often a concern that a damaged layer may form during the mechanical dicing and/or thinning process, the microscopic characteristics of the damaged layer have not yet been investigated in detail. In this study, the microstructural characterization of a damaged layer was investigated by transmission electron microscopy. It was found that mechanical polishing introduced dislocation near the surface of the crystal. It was also found that the domain structure was affected by the introduction of dislocation..
23. T. Nakanishi, T. Machi, T. Izumi, R. Teranishi, T. Kato, T. Kato, T. Hirayama, Jointing of coated Conductors by using nano-particle metal paste, Physics Procedia, 81 (2016) 105 – 108., 2016.05.
24. R.Teranishi, K. Otaguro, H. Horita, K. Yamada, K. Kaneko, T. Izumi, S. Awaji, Minimization of BaHfO3 flux pinning centers in YBa2Cu3Oy films by metal organic deposition process, IEEE Trans. Appl. Supercond., 10.1109/TASC.2016.2549863, 26, 3 (2016) 801403-1-3., 2016.04, YBCO films with BaHfO3 (BHO) nanoparticles were fabricated by a metal organic deposition method using trifluoroacetate (TFA) solution with Hf salt. The diameter of BHO nanoparticles was minimized by the additional holding temperature during the crystallization process. Critical current density (JC) in magnetic fields of YBCO films with BHO nanoparticles was higher than that of the film with BaZrO3 (BZO). Accordingly, it was revealed that BHO nanoparticles act as very effective artificial pinning centers..
25. K. Hiramatsu, R. Teranishi, K. Yamada, Y. Sato, K. Kaneko, Joint of REBa2Cu3O7-δ Coated Conductors using Metal Organic Deposition, Physics Procedia, 10.1016/j.phpro.2016.04.003, 81 (2016) 109–112., 2016.01, Joint techniques connecting REBa2Cu3O7-δ(REBCO) coated conductors (CCs) are required to fabricate long length CCs and to repair locally damaged one. Two pieces of REBCO CC were attempted to be jointed using a metal organic deposition (MOD) method. The starting solution for YBCO layer was coated on GdBCO layer of CCs and calcined to fabricate precursor films, two of which were stuck together in a face to face manner, and then these films were pressurized and crystallized to joint them. Two CCs were successfully jointed together with c-axis oriented YBCO without pores and reacted phases at the joint interface..
26. T. Nishiyama, K. Kaneko, K. Yamada, R. Teranishi, T. Kato, T. Hiramyama, H. Tobita, T. Izumi, Y. Shiohara, Three-dimensional characterization of BaHfO3 precipitates in GdBa2Cu3O7-y film using STEM tomography, Microscopy, 63 (2014) i26., 2014.11.
27. K. Yamada, T. Nishiyama, K. Kaneko, Sato Yukio, R. Teranishi, T. Kato, A. Ibi, M. Yoshizumi, T. Izumi, Y. Shiohara, Microstructural characterization of GdBa2Cu3O7-y superconductor films with BaHfO3 artificial pinning centers by scanning transmission electron microscopy, Microscopy, 63 (2014) i27., 2014.11.
28. D.X.Ma, S.Matsumoto, R.Teranishi, T.Ohmura, T. Kiyoshi, A. Otuka, M. Hamada, H. Maeda, Y. Yanagisawa, H. Nakagome, H. Suematsu, Degradation analysis of REBCO coils, Supercond. Sci. Technol., doi:10.1088/0953-2048/27/8/085014, vol. 27 no. 8 (2014) pp. 85014., 2014.07.
29. D.X.Ma, Z.Y.Zhang, S.Matsumoto, R.Teranishi, T.Kiyoshi, Degradation of REBCO conductors caused by the screening current, Supercond. Sci. Technol., doi:10.1088/0953-2048/26/10/105018, Vol.26 (2013) 105018 , 2013.09.
30. T. Nishiyama, K. Kaneko, K. Yamada, R. Teranishi, T. Kato, T. Hiramyama, T. Izumi, Y. Shiohara, Microstructural characterization of TFA-MOD processed Y1-xGdxBa2Cu3O7-y with BaZrO3, Micron, 52-53 (2013) 1-7, 2013.09.
31. K. Yamada, K. Kaneko, Y. Yoshida, T. Nishiyama, R. Teranishi, K. Suzuki, M. Ito, O. Miura, R. Kita, Influences of calcination temperature on growth and superconducting properties of GdBa2Cu3O7−ı films fabricated by fluorine-free metal organic deposition method, Micron, Vol.50 (2013) 44–50, 2013.07.
32. K. Konya, K. Ootaguro, T. Nishiyama, R. Teranishi, T. Kiss, K. Yamada, K. Kaneko, M. Yoshizumi, T. Izumi, Effect of holding temperature on microstructures and Jc properties of YBa2Cu3O7-X films fabricated by TFA-MOD method , PhysicaC, 494 (2013) 144-147, 2013.05.
33. T. Watanabe, T. Kamata, T. Maebatake, R. Teranishi, T. Kiss, K. Yamada, K. Kaneko, M. Yoshizumi, T. Izumi, Study of Factors in Joint Resistance for GdBCO Coated Conductors, Physics Procedia, Vol.45 (2013) 165-168, 2013.05.
34. T. Nishiyama, K. Yamada, R. Teranishi, K. Kaneko, T. Kato, T. Izumi, Y. Shiohara, Three-Dimensional Characterization of BaZrO3 precipitates in Y1-xGdxBa2Cu3O7-y prepared by TFA-MOD using STEM-Tomography, Materials Science Forum, 10.4028/www.scientific.net/MSF.750.48, Vol750 (2013) 48—51, 2013.03.
35. Z. Y. Zhang, S. Matsumoto, R. Teranishi, T. Kiyoshi, Improving the properties of GdBCO magnetic lenses by adopting a new design and resin impregnation , Supercond. Sci. Technol. , 10.1088/0953-2048/26/4/045001 , Vol.26 (2013) 045001, 2013.02.
36. Y. Xiao, T. Motooka, R. Teranishi, S. Munetoh, Nucleation of Si and Ge by rapid cooling using molecular-dynamics simulation, Journal of Crystal Growth, Vol362 (2013) Pages 103-105, 2013.01.
37. S.J. Ye, M. Song, A. Matsumoto, K. Togano, M. Takeguchi, H. Kumakura, R. Teranishi, T. Kiyoshi, Comparison of SiC and/or toluene additives to the critical current density of internal Mg diffusion-processed MgB2 wires , PhysicaC, Volume 484 (2013) Pages 167-170, 2013.01.
38. S.J.Ye, M. Song, A. Matsumoto, K Togano, Z.Y.Zhang, H Kumakura, M Takeguchi, Ryo Teranishi, Tsukasa Kiyoshi, Enhancing the critical current properties of internal Mg diffusion-processed MgB2 wires by Mg addition , Supercond. Sci. Technol. , 10.1088/0953-2048/25/12/125014 , Vol.25 (2012) 125014, 2012.10.
39. Z.Y.Zhang, S. Matsumoto, Ryo Teranishi, Tsukasa Kiyoshi, Magnetic field, temperature and mechanical crack performance of a GdBCO magnetic lens , Supercond. Sci. Technol. , 10.1088/0953-2048/25/11/115012 , Vol.25 (2012) 115012, 2012.09.
40. T. Yoshimoto, Y. Fujii, R. Teranishi, K. Kurumi, K. Yoshida, Y. Yoshida, Y. Ichino, T. Nishiyama, S. Munetoh, K. Kaneko, A novel approach for preparing Fe(TexSy)superconducting films: solid phase epitaxial growth from amorphous precursors, Supercond. Sci. Technol., 10.1088/0953-2048/25/10/105013 , vol. 25 no.9 (2012) p105013, 2012.09.
41. Bin Liu, Makoto Saisho, Yuya Nagatomo, Mikihito Tajiri, Yusuke Nakakohara, Osamu Furukimi, Ryo Teranishi, Shinji Munetoh, Synthesizing and Subsequent Annealing of Si-based Thermoelectric Material Ba8AuxSi46-x Clathrates, Proc. Mater. Res. Soc. Symp., Vol. 1456 (2012) p. JJ03-05, 2012.08.
42. Makoto Saisho, Bin Liu, Yuya Nagatomo, Yusuke Nakakohara, Ryo Teranishi, Shinji Munetoh, Synthesis and thermoelectric properties of p-type Ba8AuxSi46-x clathrate, Journal of Physics Conference Series, Vol.379 (2012) p. 012009, 2012.08.
43. Yuya Nagatomo, Naoki Mugita, Yusuke Nakakohara, Makoto Saisho, Mikihito Tajiri, Ryo Teranishi, Shinji Munetoh, Thermoelectric properties of single crystalline Ba8AlxSi46-x clathrate by using flux Czochralski method, Journal of Physics Conference Series, Vol.379 (2012) p. 012008, 2012.08.
44. Z.Y.Zhang, S. Matsumoto, Ryo Teranishi, Tsukasa Kiyoshi, Magnetic shielding properties of GdBCO bulks with different crystal orientation, Physics Procedia, vol27(2012)180-183, 2012.08.
45. K. Konya, Y. Masuda, R. Teranishi, T. Kiss, S. Munetoh, M. Yoshizumi, T. Izumi, Growth process of BZO doped YBCO film by TFA-MOD process, Physics Procedia, vol27(2012)pp212-215
, 2012.08.
46. Y.Masuda, R.Teranishi, M.Matsuyama, K.Yamada, T.Kiss, S.Munetoh, M.Yoshizumi, T.Izumi, Flux pinning properties of YBCO films with nano-particles by TFA-MOD method
, Physics Procedia, vol27(2012)pp240-243
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47. Shinji Munetoh, Makoto Saisho, Liu Bin, Yuya Nagatomo, Yusuke Nakakohara, Ryo Teranishi, Synthesis and thermoelectric properties of the p-type Ba8AuxSi46-x clathrates, Proc. International Symposium on Materials Science and Engineering, (2012) p135-139, 2012.06.
48. Z.Y.Zhang, S. Choi, S. Matsumoto, Ryo Teranishi, G. Giunchi, A. Figini Albisetti, Tsukasa Kiyoshi, Magnetic lenses using different MgB2 bulk superconductors , Supercond. Sci. Technol., 10.1088/0953-2048/25/2/025009 , vol. 25 no. 2 (2012) p. 25009 , 2012.04.
49. Takatoshi Yoshimoto, Kenta Yuki, Ryo Teranishi, Shinji Munetoh and Kenji Kaneko, Influence of Ar background gas pressure on composition and crystal orientation in PLD-Fe(Se1-xTex) thin films, Physica C, vol. 471, no. 23-24, pp 1616-1620, 2011.12.
50. Yuya Nagatomo, Naoki Mugita, Yusuke Nakakohara, Makoto Saisho, Mikihito Tajiri, Ryo Teranishi and Shinji Munetoh, Carrier Tuning of Single Crystalline Ba8AlxSi46-x Clathrate by Using Flux Czochralski Method, Proccedings of ECO_MATES 2011,Vol.1(2011)p.007., 2011.11.
51. Makoto Saisho, Liu Bin, Yuya Nagatomo, Yusuke Nakakohara, Ryo Teranishi and Shinji Munetoh, Thermoelectric Properties of p-Type Clathrate Ba8AuxSi46-x, Proccedings of ECO_MATES 2011,Vol.1(2011)p. 017., 2011.11.
52. Z.Y.Zhang, S. Matsumoto, S. Choi, Ryo Teranishi, Tsukasa Kiyoshi, Comparison of different configurations of NbTi magnetic lenses, Supercond. Sci. Technol., 10.1088/0953-2048/24/10/105012 , vol. 24, no. 10, pp 105012, 2011.10.
53. Z. Y. Zhang, S. Matsumoto, S. Choi, R. Teranishi and T. Kiyoshi, A new structure for a magnetic field concentrator using NbTi sheet superconductors, Physica C, vol. 471, no. 21-22, pp 1547-1549, 2011.09.
54. Toru Maebatake, Yusuke Ichinose, Kazuhiro Yamada, Nobuyuki Mori, Ryo Teranishi, Masayoshi Inoue, Takanobu Kiss, Masateru Yoshizumi, Teruo Izumi, Kenji Kaneko, Shinji Munetoh and Masashi Mukaida , Joint properties of REBCO coated conductors, Physica C, vol. 471, no. 21-22, pp 987-989, 2011.08.
55. Yusuke Nakakohara, Naoki Mugita, Yuya Nagatomo, Makoto Saisho, Teruaki Motooka, Ryo Teranishi and Shinji Munetoh, Single crystallization of Ba8AlxSi46-x clathrate by using the flux Czochralski method, Proc. Mater. Res. Soc. , Vol. 1325, pp. mrss11-1325-e03-06, 2011.07.
56. Naoki Mugita, Yusuke Nakakohara, Ryo Teranishi and Shinji Munetoh, Single crystallization of Ba8AlxSi46-x clathrate for improvement of thermoelectric properties, Journal of Materials Research, Vol.26, pp.1857-1860, 2011.07.
57. Naoki Mugita, Yusuke Nakakohara, Teruaki Motooka, Ryo Teranishi and Shinji Munetoh, Thermoelectric properties of single crystalline Ba8AlxSi46-x clathrate, Mater. Sci. Eng., Vol.18, pp. 142007, 2011.06.
58. T.Maebatake, N.Mori, R.Teranishi, M.Mukaida, K.Yamada, M.Miura, M.Yoshizumi, T.Izumi, Effects of joining conditions on the structures and properties of joints of REBCO coated conductors, Physica C, 470(2010)1358-1360, 2010.11.
59. N.Mori, T.Maebatake, R.Teranishi, K.Yamada, M.Mukaida, M.Miura, M.Yoshizumi, T.Izumi, In situ observation and simulation of growth process of faceted RE123 crystals, Physica C, 470(2010)1266-1270, 2010.11.
60. R.Teranishi, Y.Miyanaga, K.Yamada, N.Mori, M.Mukaida, M.Miura, M.Yoshizumi, T.Izumi, M.Namba, S.Awaji, K.Watanabe, Effects of tin-compounds addition on Jc and microstructure for YBCO films, Physica C, 470(2010)1246-1248 , 2010.11.
61. T.Izumi, M.Miura, M.Yoshizumi, R.Teranishi, T.Kiss, Pinning control processing in TFA-MOD films, Proceedings of International Workshop on Coated Conductors for Applications (2010), 2010.10.
62. R.Teranishi, T.Maebatake, Y.Ichinose, N.Mori, M.Mukaida, T.Kiss, M.Inoue, K.Yamada, K.Kaneko, S.Munetoh, M.Yoshizumi, T.Izumi, Joint properties of REBa2Cu3O7-X coated conductors, Proceedings of International Workshop on Coated Conductors for Applications (2010), 2010.10.
63. Naoki Mugita, Yuusuke Nakakohara, Teruaki Motooka, Ryou Teranishi, Shinji Munetoh,, Thermoelectric properties of single crystalline clathrate Ba8AlxSi46-x, Proccedings of The 3rd International Congress on Ceramics,(2010)to be published., 2010.10.
64. S.Munetoh, X.Y.Ping, T.Ogata, T.Motooka, R.Teranishi, Excimer Laser Crysatallization Process of Amorphous Silicon Thin Films by Using Molecular-dynamics Simulations, ISIJ International, 50, 12(2010)1925-1928 , 2010.07.
65. T.Yoshimoto, Y.Ichino, Y.Yoshida, T.Kiss, M.Inoue, K.Matsumoto, A.Ichinose, H.Kai, R.Teranishi, N.Mori, M.Mukaida, A trial of Fe(Se1−xTex) thin film fabrication by pulsed laser deposition using ArF excimer laser, Journal of Physics: Conference Series, 234 (2010) 012051-012056, 2010.03.
66. M.Takamura, S.-J.Kim, A.Ichinose, M.Mukaida, R.Kita, R.Teranishi, N.Mori, K.Matsumoto, Y.Yoshida, Fabrication and characteristics of artificial SNS junctions using three axes orientation-controlled a-axis oriented Y123/Pr123 multilayer films, Journal of Physics: Conference Series, 234 (2010) 012044-012048, 2010.03.
67. H.Kai, A.Ichinose, S.Horii, Y.Yoshida, R.Kita, K.Matsumoto, R.Teranishi, N.Mori, M.Mukaida, Relationship between surface structure and one-dimensional nanorod growth in ErBa2Cu3O7-δ films on vicinal SrTiO3 substrates, Journal of Physics: Conference Series, 234 (2010) 012022-012027 , 2010.03.
68. M.Takamura, M.Mukaida, S.Horii, A.Ichinose, R.Kita, K.Matsumoto,Y.Yoshida, M.Namba, S.Awaji, K.Watanabe, R.Teranishi, N.Mori, Matching field effects in c-axis in-plane aligned a-axis oriented YBa2Cu3Oy films with two dimensional artificial pinning centers induced by multilayered nano-structures, Superconductor Science and Technology, 23 (2010) 045023-045026, 2010.03.
69. H.Kai, S.Horii, A.Ichinose, R.Kita, K.Matsumoto, Y.Yoshida, T.Fujiyoshi, R.Teranishi, N.Mori, M.Mukaida, The effects of growth temperature on c-axis-correlated pinning centers in PLD-ErBa2Cu3O7-δ films with Ba(Er0.5Nb0.5)O3, Superconductor Science and Technology, 23 (2010) 025017-025021, 2010.03.
70. N.Mori, J.Yoshida, T.Maebatake, R.Teranishi, M.Mukaida, K.Yamada, M.Miura, M.Yoshizumi, T.Izumi, Effects of uniaxial constant pressures on the joint properties of REBCO coated conductors, Journal of Physics: Conference Series, 234 (2010) 022023-022027, 2010.03.
71. R.Teranishi, Y.Miyanaga, K.Yamada, N.Mori, M.Mukaida, M.Inoue, T.Kiss, M.Miura, M.Yoshizumi, T.Izumi, M.Namba, S.Awaji, K.Watanabe, Doping of Tin-oxides pinning centers into YBCO films by MOD method, Journal of Physics: Conference Series, 234 (2010) 022039-022044, 2010.03.
72. R.Teranishi, T.Tanaka, J.Matsuda, K.Nakaoka, T.Izumi, Y.Shiohara, N.Mori, M.Mukaida, Dependence of crystallization time on microstructures and Jc properties of YBa2Cu3Oy films by TFA-MOD chemical solution process, Materials Science and Engineering B, 173 (2010) 61-65 , 2010.03.
73. M.Mukaida, H.Kai, R.Teranishi, N.Mori, A.Ichinose, S.Horii, Y.Yoshida, K.Matsumoto, R.Kita, Control of Ba(Er0.5Nb0.5)O3 nanorods in PLD-ErBa2Cu3O7-x films, Proceedings of International Workshop on Coated Conductors for Applications (2009), 2009.11.
74. M.Mukaida, H.Kai, M.Takamura, R.Teranishi, N.Mori, A.Ichinose, S.Horii, Y.Yoshida, K.Matsumoto, P.Mele, R.Kita, Relationships between JC enhancement and dimensionality of artificial pinning centers, Proceedings of International Workshop on Coated Conductors for Applications (2009), 2009.11.
75. T. Sueyoshi, K. Yonekura, R. Kajita, T. Fujiyoshi, M. Mukaida, R. Teranishi, H. Kai, K. Matsumoto, Y. Yoshida, A. Ichinose, S. Horii, S. Awaji and K. Watanabe, Flux pinning properties of nano-rods comprised of BaMO3 (M = Zr, Sn) in REBa2Cu3O7−δ thin films prepared by PLD method, Physica C, 469(2009)1396-1399, 2009.07.
76. Y. Miyanaga, R. Teranishi, K. Yamada, N. Mori, M. Mukaida, T. Kiss, M. Inoue, K. Nakaoka, M. Yoshizumi, T. Izumi, Y. Shiohara, M. Nanba, S. Awaji and K. Watanabe, Effects of Sn-doping on JC–B properties and crystalline structure for YBCO films by advanced TFA-MOD method, Physica C, 469(2009)1418-1421, 2009.07.
77. K. Yamada, M. Mitsuhara, S. Hata, Y. Miyanaga, R. Teranishi, N. Mori, M. Mukaida and K. Kaneko, Three-dimensional observation of microstructures in Y123 films fabricated by TFA-MOD method , Physica C, 469(2009)1446-1449, 2009.07.
78. K. Yuki, M. Mukaida, H. Kai, R. Teranishi, K. Yamada, N. Mori, S. Horii, A. Ichinose, Y. Yoshida and K. Matsumoto, A research for improvement of crystallinity and critical temperature by oxygen pressure in ErBa2Cu3O7−δ films, Physica C, 469(2009)1384-1387, 2009.07.
79. M. Takamura, M. Mukaida, S. Horii, A. Ichinose, R. Kita, M. Namba, S. Awaji, K. Watanabe, K. Matsumoto, Y. Yoshida, R. Teranishi, K. Yamada and N. Mori, Effects of the APC materials on c-axis correlated pinning effects in a-axis oriented Y123/2D APC multilayer films , Physica C, 469(2009)1545-1549, 2009.07.
80. N. Mori, K. Yoshida, Y. Miyanaga, K. Yamada, R. Teranishi and M. Mukaida, Growth process of Y123 crystal grains in the film fabricated by TFA–MOD method , Physica C, 469(2009)1341-1344, 2009.07.
81. M. Sugimoto, R. Teranishi, S. Ooue, M. Mukaida, N. Mori, K. Yamada, H. Fukushima, T. Izumi and Y. Shiohara, Electrodeposition of textured nickel on nickel alloy Hastelloy, Physica C, 469(2009)1371-1373, 2009.07.
82. R. Teranishi, J. Yoshida, N. Mori, K. Yamada, M. Mukaida, T. Kiss, M. Inoue, J. Matsuda, K. Nakaoka, T. Izumi and Y. Shiohara, JC properties and microstructures of YBCO films fabricated by low temperature calcination in TFA-MOD method , Physica C, 469(2009)1332-1335, 2009.07.
83. R. Teranishi, A. Mitani, K. Yamada, N. Mori, M. Mukaida, M. Miura, K. Nakaoka, T. Izumi and Y. Shiohara, Dependence of microstructures on growth rate in YBCO films by TFA-MOD method , Physica C, 469(2009)1349-1352, 2009.07.
84. R.Teranishi, K.Tada, J.Yoshida, K.Yamada, N.Mori, M.Mukaida, M.Inoue, T.Kiss, K.Nakaoka, M.Miura, M.Yoshizumi, T.Izumi and Y.Shiohara, High-Jc YBCO films using precursors with barium concentration gradient in film thickness by TFA-MOD process , Physica C, 469(2009)1345-1348, 2009.07.
85. T.Yoshimoto, G.Goto, M.Mukaida, R.Terasnishi, N.Mori, K.Yamada, S.Funaki, Y.Yoshida, A.Ichinose, K.Matsumoto, S.Horii, and R.Kita, An Attempt to Arrange BZO Nanorods Into ErBCO Thin Films, IEEE Trans. Appl. Supercond., Volume 19, Issue 3, Part 3(2009)3420-3422, 2009.06.
86. H.Kai, S.Horii, A.Ichinose, K.Yamada, R.Kita, M.Mukaida, R.Teranishi, and N.Mori, Influence of Growth Temperature on Microstructure and Superconducting Properties of ErBa2Cu3O7-δ Films With Ba(Er0.5Nb0.5)O3 Nanorods, IEEE Trans. Appl. Supercond., Volume 19, Issue 3, Part 3(2009)3435 - 3438, 2009.06.
87. M.Mukaida, S.Yasunaga, R.Teranishi, N.Mori, A.Ichinose, S.Horii, K.Matsumoto, Y.Yoshida, R.Kita, Growth of BaSnO3 Doped ErBa2Cu3O7-δ Thin Films on MgO Substrates for High JC Applications, IEEE Trans. Appl. Supercond., Volume 19, Issue 3, Part 3(2009)3416 - 3419, 2009.06.
88. R.Teranishi, K.Tada, J.Yoshida, K.Yamada, N.Mori, M.Mukaida, K.Nakaoka, M.Miura, M.Yoshizumi, T.Izumi, and Y.Shiohara, Crystal Growth of Ba Concentration Controlled YBCO Films by TFA-MOD Process, IEEE Trans. Appl. Supercond., Volume 19, Issue 3, Part 3(2009)3200 - 3203, 2009.06.
89. S. Horii, H. Kai, M. Mukaida, K. Yamada, R. Teranishi, A. Ichinose, K. Matsumoto, Y. Yoshida, R. Kita, J. Shimoyama, K. Kishio, Vortex Bose glass in ErBa2Cu3Oy films with size-controlled nanorods, Appl. Phys. Lett, 93 no. 15(2008) 152506, 2008.10.
90. Nobuyuki Mori, Ryo Teranishi, Keisuke Tada, Jiro Yoshida, Kazuhiro Yamada, and Masashi Mukaida , Formation of Microstructures and Continuous Heating and Time?Temperature Transformation Diagrams of YBa2Cu3O7-x Film Fabricated by Metal Organic Deposition with Trifluoroacetates , Japanese Journal of Applied Physics, 47 (2008) 7131-7135 , 2008.09.
91. K. Yuki, H. Kai, M. Mukaida, S. Horii, R. Kita, A. Ichinose, Y. Yoshida, K. Matsumoto, R. Teranishi, K. Yamada, N. Mori, A research for controlling nanorod diameter in BaNb2O6 doped REBa2Cu3O7−δ films, Physica C, 2008.07.
92. S. Yasunaga, M. Mukaida, A. Ichinose, S. Horii, R. Teranishi, K. Yamada, K. Matsumoto, R. Kita, Y. Yoshida, N. Mori, Growth of BaSnO3 doped ErBa2Cu3O7−δ thin films for high Jc applications
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93. K. Tada, J. Yoshida, N. Mori, K. Yamada, R. Teranishi, M. Mukaida, T. Kiss, M. Inoue, Y. Shiohara, T. Izumi, J. Matsuda, K. Nakaoka, Growth process of Ba-poor YBCO film fabricated by TFA-MOD process
, Physica C, 468 (2008) 1554-1558, 2008.07.
94. J. Yoshida, K. Tada,T. Tanaka,N. Mori,K.Yamada, R.Teranishi, M. Mukaida, T. Kiss, M. Inoue, Y. Shiohara, T. Izumi, K. Nakaoka, J. Matsuda, Effect of calcination conditions on microstructures and Jc of YBCO films fabricated by TFA-MOD method
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95. Y. Tanaka, M. Mukaida, R. Teranishi, K. Yamada, A. Ichinose, K. Matsumoto, S. Horii, Y. Yoshida, R. Kita, T. Fujiyoshi, N. Mori, Fabrication and characterization of BaSnO3-doped NdBa2Cu3O7-d thin film
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96. M. Takamura, M. Mukaida, S. Horii, A. Ichinose, R. Kita, S. Kato, K. Matsumoto, Y. Yoshida, K. Watanabe, S. Awaji, M. Namba, T. Fujiyoshi, R. Teranishi, K. Yamada, N. Mori, Electrical transport properties of Y123 films with 2-D apcs, Physica C, 468(2008) 1851-1853, 2008.07.
97. T. Fujiyoshi, M. Haruta, T. Sueyoshi, K. Yonekura, M. Watanabe, M. Mukaida, R. Teranishi, K. Matsumoto, Y. Yoshida, A. Ichinose, S. Horii, S. Awaji, K. Watanabe, Flux pinning properties of REBa2Cu3Oy thin films with BaZrO3 nano-rods, Physica C, 468 (2008) 1635-1637, 2008.07.
98. R. Kita, S. Kato, T. Nakamura, O. Miura, R. Teranishi, S. Yasunaga, H. Kai, M. Mukaida, A. Ichinose, K. Matsumoto, M.S. Horii, Y. Yoshida, Stability of barium oxides in REBa2Cu3Oy superconductors, Physica C, 468 (2008) 1391-1394, 2008.07.
99. K. Yamada, A. Ichinose, S. Horii, H. Kai, R. Teranishi, M. Mukaida, R. Kita, S. Kato, Y. Yoshida, K. Matsumoto, S. Toh, Characterization of nanorods in BaNb2O6-doped Er123 films revealed by cross-sectional transmission electron microscopy, Physica C, 468 (2008)1638-1642, 2008.07.
100. N. Mori, K. Tada, K. Yamada, R. Teranishi, M. Mukaida, Numerical study on crystal growth process in YBCO film fabricated by TFA-MOD method, Physica C, 468 (2008) 1537-1541, 2008.07.
101. H. Kai, M. Mukaida, R. Teranishi, N. Mori, K. Yamada, S. Horii, A. Ichinose, R. Kita, K. Matsumoto, Y. Yoshida, S. Awaji, K. Watanabe, M. Namba, T. Fujiyoshi, Effects of growth temperature for superconducting properties and microstructures of PLD-ErBa2Cu3O7−δ film with BaNb2O6
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102. A.Mitani, R.Teranishi, K.Yamada, N.Mori, M.Mukaida, T.Kiss, M.Inoue, Y.Shiohara, T.Izumi, K.Nakaoka, J.Matsuda, Effect of fabrication conditions on crystalline of SmBCO films fabricated by TFA-MOD method, Physica C, 468 (2008) 1546-1549 , 2008.07.
103. R. Teranishi, S. Yasunaga, H. Kai, K. Yamada, M. Mukaida, N. Mori, T. Fujiyoshi, A. Ichinose, S. Horii, K. Matsumoto, Y. Yoshida, R. Kita, S. Awaji, Superconducting properties of ErBCO films with BaMO3 nanorods (M = Zr and Sn) by pulsed laser deposition, Physica C, 468 (2008) 1522-1526, 2008.07.
104. S. Horii, M. Takamura, M. Mukaida, A. Ichinose, K. Yamada, R. Teranishi, K. Matsumoto, R. Kita, Y. Yoshida, J. Shimoyama, K. Kishio , Two-Dimensional Vortex-Pinning Phenomena in YBa2Cu3Oy Films, Appl. Phys. Lett, 92 no. 13(2008) 132502, 2008.04.
105. H Kai, M Mukaida, R Teranishi, N Mori, K Yamada, S Horii, A Ichinose, K Matsumoto, Y Yoshida, R Kita, S Kato, S Awaji, K Watanabe, M Namba and T Fujiyoshi, Superconducting properties and microstructure of PLD-ErBa2Cu3O7-δ films with BaNb2O6
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106. K. Yamada, M. Mukaida, H. Kai, R. Teranishi, A. Ichinose, R. Kita, S. Kato, S. Horii, Y. Yoshida, K. Matsumoto, S. Toh, Transmission electron microscopy characterization of nanorods in BaNb2O6-doped ErBa2Cu3O7-d films, Appl. Phys. Lett, 92 no. 11(2008) 112503, 2008.03.
107. N Mori, M Mukaida, R Teranishi, K Yamada, T Tanaka and K Tada, Crystal growth process of Y123 film fabricated by modified TFA-MOD process, J. Phys.: Conf. Ser. , 97 (2008) 012061, 2008.03.
108. R Teranishi, A Mitani, K Yamada, N Mori, M Mukaida, M Inoue, T Kiss, K Nakaoka, J Matsuda, T Izumi and Y Shiohara, Crystal grains alignment of SmBCO film by advanced TFA-MOD method, J. Phys.: Conf. Ser. , 97 (2008) 12171, 2008.03.
109. Kazuhiro Yamada, Ataru Ichinose, Shuhei Yasunaga, Ryo Teranishi, Masashi Mukaida, Shigeru Horii, Ryusuke Kita, Shingo Kato, Yutaka Yoshida, Kaname Matsumoto, and Shoichi Toh , Transmission Electron Microscopy Analysis of Nanorods in BaSnO3-Doped ErBa2Cu3O7-δ Films , Japanese Journal of Applied Physics, 47 (2008) 899-903 , 2008.02.
110. M Takamura, M Mukaida, S Horii, A Ichinose, R Kita, S Kato, K Matsumoto, Y Yoshida, M Namba, S Awaji, K Watanabe, R Teranishi, K Yamada, N Mori, A novel 2-dimensional artificial pinning center, J. Phys.: Conf. Ser. , 97 (2008) 012153, 2008.01.
111. S Horii, K Yamada, H Kai, A Ichinose, M Mukaida, R Teranishi, R Kita, K Matsumoto, Y Yoshida, J Shimoyama and K Kishio, Introduction of c-axis-correlated 1D pinning centers and vortex Bose glass in BaNbO-doped ErBa2Cu3Oy films, Supercond. Sci. Technol. , 20 No 12 (2007) 1115-1119 , 2007.12.
112. T. Tanaka, K. Tada, N. Mori, K. Yamada, R. Teranishi, M. Mukaida, Y. Shiohara, T. Izumi and J. Matsuda, Formation process of microstructure and properties of YBCO film fabricated by advanced TFA-MOD method, Physica C, Vols. 463-465,(2007) pp. 527-531, 2007.07.
113. K. Yamada, N. Mori, K. Tada, T. Tanaka, R. Teranishi, M. Mukaida, S. Toh, K. Kaneko, T. Izumi and Y. Shiohara, Transmission electron microscopy studies of YBCO films fabricated by advanced TFA-MOD process, Physica C, Vols. 463-465,(2007) pp. 717-721, 2007.07.
114. H. Kai, M. Mukaida, N. Mori, R. Teranishi, K. Yamada, K. Matsumoto, Y. Yoshida, S. Horii, R. Kita, S. Kato and A. Ichinose, Superconducting properties and microstructure of PLD-ErBa2Cu3O7-d films with BaNb2O6, Physica C, Vols. 463-465,(2007) pp. 895-899, 2007.07.
115. S. Yasunaga, M. Mukaida, K. Matsumoto, Y. Yoshida, A. Ichinose, S. Horii, R. Kita, S. Kato, R. Teranishi, K. Yamada and N. Mori, Improvement of superconducting properties by BaZrO3 doping into ErBa2Cu3O7-d thin films, Physica C, Vols. 463-465,(2007) pp. 900-903, 2007.07.
116. M. Takamura, M. Mukaida, Y. Shingai, R. Teranishi, K. Yamada, N. Mori, A. Ichinose, R. Kita, S. Kato, K. Matsumoto, Y. Yoshida and S. Horii, A new approach to a 2-dimensional artificial pinning center, Physica C, Vols. 463-465,(2007) pp. 904-908, 2007.07.
117. Y. Shingai, M. Mukaida, R. Teranishi, N. Mori, K. Yamada, R. Kita, S. Kato, A. Ichinose, S. Horii, Y. Yoshida, K. Matsumoto, S. Awaji, K. Watanabe, M. Nanba and A. Saito, Influence of amount of BaZrO3 doping into ErBa2Cu3O7-d films, Physica C, Vols. 463-465,(2007) pp. 909-913, 2007.07.
118. J. Matsuda, K. Nakaoka, R. Teranishi, Y. Yamada, T. Izumi, Y. Shiohara, Microstructural Analysis of YBCO Films Deposited by Advanced TFA-MOD Process, IEEE Trans. Appl. Supercond., Vol. 17, Part 3,(2007) pp. 33103312, 2007.02.
119. M. Mukaida, T. Horide, Y. Shingai, A. Ichinose, K. Matsumoto, S. Horii, R. Kita, Y. Yoshida, S. Awaji, K. Watanabe, R. Teranishi, K. Yamada and N. Mori, Microstructure and Jc characteristics of Er123 films with artificial pinning centers, IEEE Trans. Appl. Supercond., Vol. 17, Part 3,(2007) pp. 36883691, 2007.02.
120. R. Teranishi, J. Matsuda, K. Nakaoka, T. Izumi, Y. Shiohara, N. Mori and M. Mukaida, High production rate process of YBCO coated conductors by TFA-MOD process, IEEE Trans. Appl. Supercond., Vol. 17, Part 3,(2007) pp. 33173320, 2007.02.
121. Ruwan Gallage, Ryo Teranishi, Takeshi Fujiwara, Tomoaki Watanabe, Masahiro Yoshimura, Direct fabrication of CaWO4 patterns on cellulose based organic substrates by on-site ink-jet reaction at room temperature, Materials Science and Engineering , B 137 (2007) 299-303, 2007.01.
122. R.Teranishi, N.Mori, K.Yamada, M.Mukaida, Y.Shingai, J.Matsuda, K.Nakaoka, T.Izumi, Y.Shiohara, High-Ic Processing for YBCO Thick Films by MOD Method Using Tri-fluoroacetates, Proc. of The 8th International Symposium on Materials Science and Engineering between Kyushu University and Chonbuk National University (2006), 92-93, 2006.10.
123. Y.Shingai, M.Mukaida, R.Teranishi, K.Yamada, N.Mori, A.Ichinose, R.Kita, S.Horii, Y.Yoshida, K.Matsumoto, T.Abe, A.Saito, Improvement of Surface Resistance Property of ErBa2Cu3O7 Films with BaTiO3, Proc. of Progress In Electromagnetics Research Symposium (2006), 478-479, 2006.08.
124. M.Mukaida, A.Saito, R.Kita, T.Horide, K.Matsumoto, A.Ichinose, Y.Yoshida, S.Horii, R.Teranishi, K.Yamada, N.Mori, Effect of 0-D Artificial Pinning Centers on Surface Resistance of Er123 Films, Proc. of Progress In Electromagnetics Research Symposium (2006), 345-348, 2006.08.
125. R.Teranishi, N.Mori, K.Yamada, M.Mukaida, Y.Shingai, J.Matsuda, K.Nakaoka, T.Izumi, Y.Shiohara, High-Jc Processing for YBCO Thick Films by TFA-MOD Method, Proc. of Progress In Electromagnetics Research Symposium (2006), 343-344 , 2006.08.
126. S Nomoto, Y Aoki, R Teranishi, A Satoh, H Fuji, T Izumi, Y Shiohara, New Gas Flow System for Long-Tape Reaction Tube of TFA-MOD Process, Journal of Physics, Conference Series 43(2006)142-145, 2006.06.
127. Y.Kitoh, K.Suzuki, J.Matsuda, R.Teranishi, K.Nakaoka, Y.Aoki, H.Fuji, A.Yajima, Y.Yamada, T.Izumi, Y.Shiohara, Fabrication of Y1-xRExBa2Cu3O7-y Films on Single crystalline Substrates and IBAD Buffered Metaric Tapes by Advanced TFA-MOD Process, PhysicaC, 445-448(2006)558-562, 2006.06.
128. J.Matsuda, K.Nakaoka, S.Koyama, R.Teranishi, H.Fuji, Y.Aoki, Y.Yamada, T.Izumi, Y.Shiohara, Microstructure and Crystallization Mechanism of YBa2Cu3O7-y Films Formed by Advanced TFA-MOD Process, PhysicaC, 445-448(2006)563-569, 2006.06.
129. K.Nakaoka, J.Matsuda, R.Teranishi, H.Fuji, T.Izumi, Y.Shiohara, Y.Yamada, T.Goto, A.Yajima, Influence of Calcination Conditions on Superconducting Properties of YBCO Coated Conductors by the Advanced TFA-MOD Process, PhysicaC, 445-448(2006)545-548, 2006.06.
130. Y.Aoki, R.Teranishi, Y.Kitoh, H.Fuji, K.Nakaoka, J.Matsuda, S.Nomoto, T.Izumi, Y. Shiohara, Y.Yamada, T.Goto, A.Yajima, Progress in Scale-up of YBCO Coated Conductors by Advanced TFA-MOD Process, PhysicaC, 445-448(2006)540-544, 2006.06.
131. S.Nomoto, Y.Aoki, R.Teranishi, H.Fuji, T.izumi, Y.Shiohara, Development of Wide Tape Reaction System for Reel-to-reel TFA-MOD Process, PhysicaC, 445-448(2006)549-552, 2006.06.
132. T.Izumi, H.Fuji, Y.Aoki, R.Teranishi, K.Nakaoka, J.S.Matsuda, S.Nomoto, Y.Kitoh, K.Suzuki, Y.Yamada, A.Yajima, T.Saitoh, Y.Shiohara, R&D for Long Tapes with High Ic by Advanced TFA-MOD Process, PhysicaC, 445-448(2006)533-539, 2006.06.
133. R Teranishi, J Matsuda, K Nakaoka, H Fuji, Y Aoki, S Nomoto, Y Kitoh, K Suzuki, T Izumi, Y Shiohara, Y Yamada, A Yajima, Progress in RandD for YBCO Coated Conductors by TFA-MOD Processing, Journal of Physics, Conference Series 43(2006)170-173, 2006.06.
134. R Teranishi, S.Nomoto, J.Matsuda, Y.Aoki, K.Nakaoka, H.Fuji, Y.Kitoh, K.Suzuki, T.Izumi, Y.Yamada, T.Gotoh, A.Yajima, Y.Shiohara, High Production Rate of Crystallization Process in TFA-MOD Method for YBCO Coated Conductors, PhysicaC, 445-448(2006)553-557, 2006.06.
135. Ryo Teranishi, Teruo Izumi, Yuh Shiohara, Highlights of Coated Conductor Development in Japan, Supercond. Sci. Tech, 19 (2006) S4 – S12, 2006.05.
136. Sukeharu Nomoto, Tetsuji Honjo, Ryo Teranishi, Teruo Izumi, Yuh Shiohara, Numerical Analysis for TFA-MOD Process, Mater. Trans., 46 (2005) 922-929, 2005.01.
137. Teruo Izumi, Hiroshi Fuji, Yuji Aoki, Ryo Teranishi, Koichi Nakaoka, Junko Matsuda, Yutaka Kitoh, Yutaka Yamada, Yuh Shiohara, Yasuhiro Iijima, Takashi Saitoh, Tomotaka Goto, Atsuya Yoshinaka, Akimasa Yajima, Progress in D&D for coated conductors by advanced TFA-MOD process, IEEE Trans. Appl. Supercond., Vol15, No.2 (2005) 2743-2746, 2005.01.
138. Junko Matsuda, Yoshitaka Tokunaga, Koichi Nakaoka, Ryo Teranishi, Hiroshi Fuji, Atsushi Kaneko, Teruo Izumi, Yuh Shiohara, Effects of heating rate in calcinations process on microstructures of Y123 precursor and final films formed by advanced TFA-MOD method, IEEE Trans. Appl. Supercond., Vol15, No.2 (2005) 2652-2655, 2005.01.
139. Junko Matsuda, Yoshitaka Tokunaga, Ryo Teranishi, Koichi Nakaoka, Satoshi Koyama, Shigenobu Asada, Yuji Aoki, Hiroshi Fuji, Akimasa Yajima, Takashi Saitoh, Teruo Izumi, Yuh Shiohara, Transmission Electron Microscopic Studies on Crystallization of YBa2Cu3O7-y Films Deposited by Advanced TFA-MOD Method, PhysicaC, 426-431(2005)1051-1055, 2005.01.
140. Koichi Nakaoka, Yoshitaka Tokunaga, Junko Matsuda, Hiroshi Fuji, Ryo Teranishi, Teruo Izumi, Yuh Shiohara, Tomonori Watanabe, Yutaka Yamada, Tomotaka Goto, Atsuya Yoshinaka, Akimasa Yajima, Coating Method of Advanced TFA-MOD Process for Preparation of YBCO Coated Conductor, PhysicaC, 426-431(2005)954-958, 2005.01.
141. Sukeharu Nomoto, Akihiro Sato, Ryo Teranishi, Hiroshi Fuji, Teruo Izumi, Yuh Shiohara, Numerical Simulation of TFA-MOD Process, PhysicaC, 426-431(2005)966-972, 2005.01.
142. Atsushi Kaneko, Hiroshi Fuji, Ryo Teranishi, Junko Matsuda, Yoshitaka Tokunaga, Shigenobu Asada, Koichi Nakaoka, Yuji Aoki, Satoshi Koyama, Kiyoshi Murata, Tomotaka Goto, Atsuya Yoshinaka, Akimasa Yajima, Teruo Izumi, Yuh Shiohara, Fabrication of REBa2Cu3O7-y Film by Advanced TFA-MOD Method, PhysicaC, 426-431(2005)949-953, 2005.01.
143. Yuji Aoki, Ryo Teranishi, Hiroshi Fuji, Koichi Nakaoka, Yoshitaka Tokunaga, Junko Matsuda, Teruo Izumi, Yuh Shiohara, Tomonori Watanabe, Yutaka Yamada, Fabrication of 10m Class Y123 Coated Conductors Using a Continuous Reel-to-reel Process by TFA-MOD Method, PhysicaC, 426-431(2005)945-948, 2005.01.
144. Hiroshi Fuji, Ryo Teranishi, Yoshitaka Tokunaga, Junko Matsuda, Koichi Nakaoka, Yuji Aoki, Sukeharu Nomoto, Teruo Izumi, Yutaka Yamada, Yuh Shiohara, Akimasa Yajima, Takashi Saitoh, Progress on TFA-MOD Coated Conductor Development, PhysicaC, 426-431(2005)938-944, 2005.01.
145. Ryo Teranishi, Junko Matsuda, Koichi Nakaoka, Hiroshi Fuji, Yuji Aoki, Yutaka Kitoh, Teruo Izumi, Yutaka Yamada, Yuh Shiohara, High-Jc processing for YBCO coated conductors by TFA-MOD process, IEEE Trans. Appl. Supercond., Vol15, No.2 (2005) 2663-2666, 2005.01.
146. Ryo Teranishi, Junko Matsuda, Koichi Nakaoka, Hiroshi Fuji, Yuji Aoki, Yutaka Kitoh, Sukeharu Nomoto, Yutaka Yamada, Akimasa Yajima, Teruo Izumi, Yuh Shiohara, High-Ic Processing for YBCO Coated Conductors by TFA-MOD Process, PhysicaC, 426-431(2005)959-965, 2005.01.
147. Fuji. H, Honjo. T, Teranishi. R, Tokunaga. Y, Matsuda. J, Asada. S, Yamada. Y, Izumi. T, Shiohara. Y, Iijima.Y, Saitoh. T., Processing for coated conductors by modified TFA-MOD method, Materials Research Society Symposium Proceedings Volume EXS, Issue 3(2004) Pages 117-119, 2004.01.
148. J.S. Matsuda, Y. Tokunaga, R. Teranishi, H. Fuji, A. Kaneko, S. Asada, T.Honjo, A. Yajima, T. Saitoh, T. Izumi and Y. Shiohara, Investigation on microstructures and growth mechanism of Y123 films deposited by advanced TFA-MOD method, Materials Research Society Symposium Proceedings Volume EXS, Issue 3(2004) pp. 17-19, 2004.01.
149. Y. Tokunaga, H. Fuji, R. Teranishi, J. Matsuda, S. Asada, A. Kaneko, T. Honjo, T.Izumi, Y. Shiohara, Y. Yamada, K. Murata, Y. Iijima, T. Saitoh, T. Goto, A. Yoshinaka and A. Yajima, High Critical Current YBCO Films Using Advanced TFA-MOD process, Physica C, 412-414(2004)910-915, 2004.01.
150. J. S. Matsuda, Y. Tokunaga, R. Teranishi, H. Fuji, A. Kaneko, S. Asada, T. Honjo, A. Yajima, Y. Iijima, T. Saitoh, T. Izumi and Y. Shiohara, Effects of heat-treatment conditions on microstructure of multi-coating Y123 films deposited by advanced TFA-MOD method, Physica C, 412-414(2004)890-895, 2004.01.
151. Atsushi KANEKO, Hiroshi FUJI, Ryo TERANISHI, Yoshitaka Tokunaga, Junko MATSUDA, Shigenobu ASADA, Tetsuji HONJO, Teruo IZUMI, Yuh SHIOHARA, Kiyoshi MURATA, Tomotaka GOTO, Atsuya YOSHINAKA and Akimasa YAJIMA, Fabrication of REBa2Cu3O7-y Film by Advanced TFA-MOD Process, PhysicaC, 412-414(2004)926-930, 2004.01.
152. Hiroshi FUJI, Tetsuji HONJO, Ryo TERANISHI, Yoshitaka Tokunaga, Junko SHIBATA, Shigenobu ASADA, Yutaka YAMADA, Teruo IZUMI, Yuh SHIOHARA, Yasuhiro IIJIMA, Takashi SAITOH, Atsushi KANEKO and Kiyoshi MURATA, Processing for long YBCO coated conductors by advanced TFA-MOD Process, PhysicaC, 412-414(2004)916-919, 2004.01.
153. Teruo Izumi, Yoshitaka Tokunaga, Hiroshi Fuji, Ryo Teranishi, Junko Matsuda, Shigenobu Asada, Tetsuji Honjo, Yuh Shiohara, Takemi Muroga, Seiki Miyata, Tomonori Watanabe, Yutaka Yamada, Yasuhiro Iijima, Takashi Saitoh, Tomotaka Goto, Atsuya Yoshinaka, Aki, Progress in development of coated conductors by TFA-MOD processing, PhysicaC, 412-414(2004)885-889, 2004.01.
154. Ryo TERANISHI, Tetsuji HONJO, Yoshitaka Tokunaga,, Hiroshi FUJI, Junko MATSUDA, Teruo IZUMI and Yuh SHIOHARA, Fabrication of YBCO Film by TFA-MOD Process at Low-Pressure Atmosphere, PhysicaC, 412-414(2004)920-925, 2004.01.
155. Tetsuji HONJO, Yuichi NAKAMURA, Ryo TERANISHI, Yoshitaka Tokunaga, Hiroshi FUJI, Junko SHIBATA, Shigenobu Asada, Teruo IZUMI, Yuh SHIOHARA, Yasuhiro IIJIMA, Takashi Saitoh, Atsushi Kaneko and Kiyoshi Murata, Fabrication and Growth Mechanism of YBCO Coated Conductors by TFA-MOD Process, PhysicaC, 392-396 (2003) 873-881, 2003.01.
156. Junko SHIBATA, Yoshitaka Tokunaga, Ryo TERANISHI, Hiroshi FUJI, Tetsuji HONJO, Teruo IZUMI and Yuh SHIOHARA, Effects of Heat-treatment Conditions on Microstructure of Y123 Films Deposited by TFA-MOD Method, PhysicaC, 392-396 pt.2 (2003) 922-926, 2003.01.
157. Yoshitaka Tokunaga, Hiroshi FUJI, Ryo TERANISHI, Junko SHIBATA, Shigenobu Asada, Tetsuji HONJO, Teruo IZUMI, Yuh SHIOHARA, Yasuhiro IIJIMA and Takashi Saitoh, High Critical Current YBCO Thick Films by TFA-MOD Process, PhysicaC, 392-396 pt.2 (2003) 909-912, 2003.01.
158. Hiroshi FUJI, Tetsuji HONJO, Ryo TERANISHI, Yoshitaka Tokunaga, Junko SHIBATA, Teruo IZUMI, Yuh SHIOHARA, Yasuhiro IIJIMA and Takashi SAITOH, Processing for long YBCO coated conductors by TFA-MOD Process, PhysicaC, 392-396 pt.2 (2003) 905-908, 2003.01.
159. Teruo Izumi, Tetsuji Honjo, Yoshitaka Tokunaga, Hiroshi Fuji, Ryo Teranishi, Takashi Saitoh, Yasuhiro Iijima, Yuichi Nakamura and Yuh Shiohara, High Ic YBCO Coated Conductores by Metal Organic Deposition Method Using Trifluoroacetates, IEEE Trans. Appl. Supercond., 13 (2003) 2500-2503, 2003.01.
160. Tetsuji HONJO, Yuichi NAKAMURA, Ryo TERANISHI, Hiroshi FUJI, Junko SHIBATA, Teruo IZUMI and Yuh SHIOHARA, Growth mechanism of YBCO Films in Metal Organic Deposion Method Using Trifluoroacetates, IEEE. Trans. Appl. Supercond., 13 No.2 (2003) 2516, 2003.01.
161. Masahiro Yoshimura, Tomoaki Watanabe, Takeshi FUJIWARA and Ryo TERANISHI,, Direct Fabrication of Patterned Functional Ceramic Films by Soft Solution Processing without Post-Firing, Mat. Res. Soc. Symp. Proc, Vol. 758 (2003) 65-72, 2003.01.
162. Y. Tokunaga, H. Fuji, R. Teranishi, J. Matsuda, S. Asada, T. Honjo, T.Izumi, Y. Shiohara, Y. Iijima, T. Saitoh, T. Goto and A. Yajima, Improved TFA-MOD process for high critical current YBCO thick films, Applied Superconductivity, 181(2003) 1756-1763, 2003.01.
163. Teruo Izumi, Yoshitaka Tokunaga, Hiroshi Fuji, Ryo Teranishi, Junko Matsuda, Shigenobu Asada, Tetsuji Honjo, Yuh Shiohara, Takemi Muroga, Seiki Miyata, Tomonori Watanabe, Yutaka Yamada, Yasuhiro Iijima, Takashi Saitoh, Development of Processing for Coated Conductors by TFA-MOD Method, Applied Superconductivity, 181(2003) 1827-1832, 2003.01.
164. Masahiro YOSHIMURA, Tomoaki WATANABE, Takeshi FUJIWARA, and Ryo TERANISHI,, Direct Fabrication of Patterned Ceramic Films by Soft Solution Processing without Post-Firing, Proceedings of ISHR, (2003)419-426, 2003.01.
165. Ryo TERANISHI, Tetsuji HONJO, Yuichi NAKAMURA, Hiroshi FUJI, Yoshitaka Tokunaga, Junko SHIBATA, Teruo IZUMI and Yuh SHIOHARA, Growth Mechanism of YBCO Film by TFA-MOD Process, PhysicaC, 392-396 (2003) 882-886, 2003.01.
166. T. HONJO, H. FUJI, Y. NAKAMURA, T. IZUMI, Y. SHIOHARA, R. TERANISHI, M. YOSHIMURA, J. SHIBATA, T. YAMAMOTO and Y. IKUHARA, MOD-TFA Processing for REBaCuO7-δ Coated Conductors, Advances in Cryogenic Engineering, 48 (2002) 581-587, 2002.01.
167. Hiroshi FUJI, Tetsuji HONJO, Yuichi NAKAMURA, Teruo IZUMI, Yuh SHIOHARA, Ryo TERANISHI, Masahiro YOSHIMURA, Yasuhiro IIJIMA, and Takashi Saitoh, Fabrication Processing of Y123 Coated Conductors by MOD-TFA Method, PhysicaC, 378-381 (2002) 1013-1016, 2002.01.
168. Junko SHIBATA, Tetsuji HONJO, Ryo TERANISHI, Hiroshi FUJI, Teruo IZUMI, Yuh SHIOHARA, Takahisa YAMAMOTO, and Yuichi IKUHARA, Transmission Electron Microscopic Studies on the Growth Mechanism of YBa2Cu3O7-y and Nd1+xBa2-xCu3O7-y Films Formed by Metalorganic Deposition Method Using Trifluoroacetates, PhysicaC, 378-381 (2002) 1039-1044, 2002.01.
169. T.X. FAN, T. Hirose, T. Okabe, D. ZHANG, R. Teranishi and Y. Yoshimura,, Effect of Components upon the Surface Area of Woodceramics, J. Porous. Materials, 9 (2002) 35-42, 2002.01.
170. Takeshi FUJIWARA, Yoshinori NAKAGAWA, Takuya Nakaue, Seung-Wan SONG, Tomoaki WATANABE, Ryo TERANISHI and Masahiro YOSHIMURA, Direct fabrication of crystallized LiCoO2 films on papers by artificial biomineralization with electrochemically activated interfacial reactions, Chemical Physics Letters, 365 (2002) 369-373, 2002.01.
171. Ryo TERANISHI, Takeshi FUJIWARA, Tomoaki WATANABE, and Masahiro YOSHIMURA, Direct Fabrication of Patterned PbS and CdS on Organic Sheets at Ambient Temperature by On-site Reaction Using Ink Jet Printer, Solid State Ionics, 151 (2002) 97-103, 2002.01.
172. Ryo TERANISHI, Hiroshi FUJI, Tetsuji HONJO, Yuichi NAKAMURA, Teruo IZUMI, Yuh SHIOHARA, Junko SHIBATA, Takahisa YAMAMOTO, Yuichi IKUHARA and Masahiro YOSHIMURA, Growth Mechanism of Y123 Film by MOD-TFA Process, PhysicaC, 378-381 (2002) 1033, 2002.01.
173. Shu-Hong YU, Masahiro YOSHIMURA, Jose Maria Calderon MORENO, Takeshi FUJIWARA, Takahiro FUJINO, and Ryo TERANISHI, In Situ Fabrication and Optical Properties of a Novel Polystyrene/Semiconductor Nanocomposite Embedded with CdS Nanowires by a Soft Solution Processing, Langumir, Vol. 17, No. 5, 1700-1707, 2001.01.
174. Takeshi FUJIWARA, Yoshinori NAKAGAWA, Seung-Wan SONG, Tomoaki WATANABE, Ryo TERANISHI, and Masahiro YOSHIMURA, DIRECT FABRICATION OF LiCoO2 FILMS ON PAPERS WITH ELECTRODEPOSITION METHOD WITH INTERFACIAL REACTIONS, TMS, The Minerals Metals Materials Society, 935-938, 2000.01.
175. Ryo TERANISHI, Takeshi FUJIWARA, Tomoaki WATANABE, and Masahiro YOSHIMURA, ROOM-TEMPERATURE DIRECT PATTERNING OF CRYSTALLINE INORGANIC MATERIALS ON ORGANIC SUBSTRATES BY ON-SITE SOLUTION REACTION, TMS, The Minerals Metals Materials Society, 961-964, 2000.01.
176. Ryo TERANISHI, Hideto SAKANE, Toshiaki HATSUSHIKA, and Takashi SUZUKI,, Syntheses of Intercalated Layered Aluminium Phosphates for Oxygen Adsorption, Transactions of the Materials Research Society of Japan, Vol.24, No(3), 387-390, 1999.01.