[すべて] [A01の成果] [A02の成果] [A03の成果] 


[136] Narrow-Gap Oxyfluoride Photocatalyst for Visible-Light Hydrogen Evolution and Carbon Dioxide Reduction.,
Kuriki, R; Ichibha, T; Hongo, K.; Lu, D; Maezono, R; Kageyama, H; Ishitani, O; Oka, K; Maeda, K; K. A Stable, Journal of the American Chemical Society, 140, 21, 6648 - 6655, 2018.
[135] Undoped Layered Perovskite Oxynitride Li2LaTa2O6N for Photocatalytic CO2 Reduction with Visible Light.,
Oshima, T.; Ichibha, T.; Qin, K. S.; Muraoka, K.; Vequizo, J. J. M.; Hibino, K.; Kuriki, R.; Yamashita, S.; Hongo, K.; Uchiyama, T.; et al., Angewandte Chemie International Edition, , 2018.
[134] Stabilization Mechanism of the Tetragonal Structure in a Hydrothermally Synthesized BaTiO 3 Nanocrystal.,
Hongo, K; Kurata, S; Jomphoak, A; Inada, M; Hayashi, K; Maezono, R, Inorganic Chemistry, , 2018.
[133] Persistent Methyl Orange Degradation Ability of MgAl2O4:(Pr3+,Dy3+)/M-TiO2 Luminescent Photocatalyst.,
Fan, J.-M.; Zhao, Z.-H.; Gong, C.; Xue, Y.-Q.; Yin, S., Journal of Nanoscience and Nanotechnology, 18, 3, 1675 - 1681, 2018.
[132] Selective Hydride Occupation in BaVO3–XHx (0.3 £ x £ 0.8) with Face- and Corner-Shared Octahedra.,
Yamamoto, T.; Shitara, K.; Kitagawa, S.; Kuwabara, A.; Kuroe, M.; Ishida, K.; Ochi, M.; Kuroki, K.; Fujii, K.; Yashima, M.; et al., Chemistry of Materials , , 2018.
[131] New Mechanism for Ferroelectricity in the Perovskite Ca2–XMnxTi2O6 Synthesized by Spark Plasma Sintering.,
Li, Z.; Cho, Y.; Li, X.; Li, X.; Aimi, A.; Inaguma, Y.; Alonso, J. A.; Fernandez-Diaz, M. T.; Yan, J.; Downer, M. C.; et al. , Journal of the American Chemical Society , 140, 6, 2214 - 2220, 2018.
[130] Synthesis of the Perovskite SrTaO2 N Using C3 N4 for Both Reduction and Nitridation.,
Masubuchi, Y.; Tadaki, M.; Kikkawa, S., Chemistry Letters, 47, 1, 31 - 33, 2018
DOI: 10.1246/cl.170953.
[129] Preparation of PH-Responsive Hollow Capsules via Layer-by-Layer Assembly of Exfoliated Layered Double Hydroxide Nanosheets and Polyelectrolytes.,
Katagiri, K.; Shishijima, Y.; Koumoto, K.; Inumaru, K., Journal of Nanoscience and Nanotechnology , 18, 1, 110 - 115, 2018.
[128] Thin and Dense Solid-Solid Heterojunction Formation Promoted by Crystal Growth in Flux on a Substrate.,
Zettsu, N.; Shiiba, H.; Onodera, H.; Nemoto, K.; Kimijima, T.; Yubuta, K.; Nakayama, M.; Teshima, K. , Scientific Reports , 8, 1, , 2018.
[127] Expanding Frontiers in Materials Chemistry and Physics with Multiple Anions.,
Kageyama, H.; Hayashi, K.; Maeda, K.; Attfield, J. P.; Hiroi, Z.; Rondinelli, J. M.; Poeppelmeier, K. R., Nature Communications, 9, 1, , 2018.
[126] H 2 Evolution over G-C 3 N 4 /Cs x WO 3 under NIR Light.,
Shi, A.; Li, H.; Yin, S.; Zhang, J.; Wang, Y., Applied Catalysis B: Environmental , 228, 75 - 86, 2018.
[125] Direct Synthesis of Nearly Single Phase SrTaO 2 N from SrCO 3 /TaN.,
Chen, S.-L.; Guo, W.-M.; Sun, S.-K.; Masubuchi, Y.; Lv, M.; Lin, H.-T.; Wang, C.-Y., Ceramics International, 44, 4, 4504 - 4507, 2018.
[124] Synthesis of graphitic carbon nitride from different precursors by fractional thermal polymerization method and their visible light induced photocatalytic activities.,
Zhao, Z.; Ma, Y.; Fan, J.; Xue, Y.; Chang, H.; Masubuchi, Y.; Yin, S., Journal of Alloys and Compounds, 735, 1297 - 1305, 2018
DOI: 10.1016/j.jallcom.2017.11.033.
[123] Adhesion of electrodes on diamond (111) surface: A DFT study.,
Ichibha, T.; Hongo, K.; Motochi, I.; Makau, N. W.; Amolo, G. O.; Maezono, R., Diamond and Related Materials, 81, 168 - 175, 2018
DOI: 10.1016/j.diamond.2017.12.008.
[122] Native defects in silver orthophosphate and their effects on photocatalytic activity under visible light irradiation.,
Sulaeman, U.; Hermawan, D.; Andreas, R.; Abdullah, A. Z.; Yin, S., Applied Surface Science, 428, 1029 - 1035, 2018
DOI: 10.1016/j.apsusc.2017.09.188.
[121] Synthesis of Gallium Oxynitride Nanoparticles through Hydrothermal Reaction under a Presence of Acetylene Black and Their Photocatalytic NOx Decomposition.,
Asakura, Y.; Inaguma, Y.; Ueda, K.; Masubuchi, Y.; Yin, S., Nanoscale, 10, 4, 1837 - 1844, 2018.
[120] Low-Temperature Hydrothermal Synthesis and Characterization of SrTiO3 Photocatalysts for NOx Degradation.,
Kobayashi, M.; Suzuki, Y.; Goto, T.; Cho, S. H.; Sekino, T.; Asakura, Y.; Yin, S., Journal of the Ceramic Society of Japan, 126, 2, 135 - 138, 2018.


[119] Valence Band Engineering of Layered Bismuth Oxyhalides toward Stable Visible-Light Water Splitting: Madelung Site Potential Analysis.,
Kato, D.; Hongo, K.; Maezono, R.; Higashi, M.; Kunioku, H; Yabuuchi, M.; Suzuki, H.; Okajima, H.; Zhong, C.; Nakano, K.; et al., Journal of the American Chemical Society, 139, 51, 18752 - 18731, 2017.
[118] CO2 Reduction Using Oxynitrides and Nitrides under Visible Light.,
Maeda, K., Progress in Solid State Chemistry , , 2017.
[117] Investigation into Structural Phase Transitions in Layered Titanium-Oxypnictides by a Computational Phonon Analysis.,
Nakano, K.; Hongo, K.; Maezono, R., Inorganic Chemistry, 56, 22, 13732 - 13740, 2017.
[116] A Computational Scheme To Evaluate Hamaker Constants of Molecules with Practical Size and Anisotropy.,
Hongo, K.; Maezono, R., Journal of Chemical Theory and Computation, 13, 11, 5217 - 5230, 2017.
[115] Promoted Hydride/Oxide Exchange in SrTiO 3 by Introduction of Anion Vacancy via Aliovalent Cation Substitution.,
Takeiri, F.; Aidzu, K.; Yajima, T.; Matsui, T.; Yamamoto, T.; Kobayashi, Y.; Hester, J.; Kageyama, H., Inorganic Chemistry, 56, 21, 13035 - 13040, 2017.
[114] Inert Layered Silicate Improves the Electrochemical Responses of a Metal Complex Polymer.,
Eguchi, M.; Momotake, M.; Inoue, F.; Oshima, T.; Maeda, K.; Higuchi, M., ACS Applied Materials & Interfaces, 9, 40, 35498 - 35503, 2017.
[113] New Oxide-Ion Conductor SrYbInO 4 with Partially Cation-Disordered CaFe 2 O 4 -Type Structure.,
Fujimoto, A.; Yashima, M.; Fujii, K.; Hester, J. R., The Journal of Physical Chemistry C, 121, 39, 21272 - 21280, 2017.
[112] ZrO 2 Nanocrystals as Catalyst for Synthesis of Dimethylcarbonate from Methanol and Carbon Dioxide: Catalytic Activity and Elucidation of Active Sites.,
Akune, T.; Morita, Y.; Shirakawa, S.; Katagiri, K.; Inumaru, K., Langmuir, , 2017.
[111] Vacuum Referred Binding Energy (VRBE)-Guided Design of Orange Persistent Ca 3 Si 2 O 7 :Eu 2+ Phosphors.,
Ueda, J.; Maki, R.; Tanabe, S., Inorganic Chemistry, 56, 17, 10353 - 10360, 2017.
[110] Mixed-Spin Diamond Chain Cu 2 FePO 4 F 4 (H 2 O) 4 with a Noncollinear Spin Order and Possible Successive Phase Transitions.,
Lu, H.; Hayashi, N.; Matsumoto, Y.; Takatsu, H.; Kageyama, H., Inorganic Chemistry , 56, 15, 9353 - 9360, 2017.
[109] SiO 2 Shell Formation Mechanism and Enlargement on Hydrophobized Nanoparticles via a Reverse Microemulsion Process.,
Katagiri, K.; Narahara, M.; Sako, K.; Inumaru, K., Journal of Sol-Gel Science and Technology, , 2017.
[108] Valence Band Engineering by a Layer Insertion to Sillén–Aurivillius Perovskite Oxyhalides.,
Kato, D.; Herve, C.; Yamamoto, T.; Kunioku, H.; Higashi, M.; Abe, R.; Kageyama, H. , Chemistry Letters , 46, 8, 1083 - 1085, 2017.
[107] Interfacial Manipulation by Rutile TiO 2 Nanoparticles to Boost CO 2 Reduction into CO on a Metal-Complex/Semiconductor Hybrid Photocatalyst.,
Wada, K.; Ranasinghe, C. S. K.; Kuriki, R.; Yamakata, A.; Ishitani, O.; Maeda, K., ACS Applied Materials & Interfaces , 9, 28, 23869 - 23877, 2017.
[106] An Alternative, Faster and Simpler Method for the Formation of Hierarchically Porous ZnO Particles and Their Thermoelectric Performance.,
Virtudazo, R. V. R.; Guo, Q.; Wu, R.; Takei, T.; Mori, T., RSC Adv., 7, 51, 31960 - 31968, 2017.
[105] Synthesis, Structure, and Photoluminescence of a Novel Oxynitride BaYSi 2 O 5 N Activated by Eu 2+ and Ce 3+.,
Kobayashi, M.; Yasunaga, T.; Sato, H.; Kato, H.; Fujii, K.; Yashima, M.; Kakihana, M. , Chemistry Letters, 46, 6, 795 - 797, 2017.
[104] Toward Tunable and Bright Deep-Red Persistent Luminescence of Cr 3+ in Garnets.,
Xu, J.; Ueda, J.; Tanabe, S., Journal of the American Ceramic Society, , 2017.
[103] Electronic Structures of Si- and Te-Doped CoSb3 Compounds under High Pressures.,
, Phys., 56, 5S3, 05FB07, 2017.
[102] Robust Binding between Carbon Nitride Nanosheets and a Binuclear Ruthenium(II) Complex Enabling Durable, Selective CO 2 Reduction under Visible Light in Aqueous Solution.,
Kuriki, R.; Yamamoto, M.; Higuchi, K.; Yamamoto, Y.; Akatsuka, M.; Lu, D.; Yagi, S.; Yoshida, T; Ishitani, O.; Maeda, K., Angewandte Chemie International Edition, 56, 17, 4867 - 4871, 2017.
[101] Sb Doping of Metallic CuCr2S4 as a Route to Highly Improved Thermoelectric Properties.,
Khan, A. U.; Orabi, R. A. R. A.; Pakdel, A.; Vaney, J.-B.; Fontaine, B.; Gautier, R.; Halet, J.-F.; Mitani, S.; Mori, T., Chem. Mater., 29, 7, 2988 - 2996, 2017.
[100] Hybrid Photocathode Consisting of a CuGaO2 P-Type Semiconductor and a Ru(II)–Re(I) Supramolecular Photocatalyst: Non-Biased Visible-Light-Driven CO2 Reduction with Water Oxidation.,
Kumagai, H.; Sahara, G.; Maeda, K.; Higashi, M.; Abe, R.; Ishitani, O., Chem. Sci., , 2017.
[99] Sillén–Aurivillius-Related Oxychloride Bi 6 NbWO 14 Cl as a Stable O 2 -Evolving Photocatalyst in Z-Scheme Water Splitting under Visible Light.,
Kunioku, H.; Higashi, M.; Tassel, C.; Kato, D.; Tomita, O.; Kageyama, H.; Abe, R., Chemistry Letters, 46, 4, 583 - 586, 2017.
[98] A P25/(NH4)XWO3 Hybrid Photocatalyst with Broad Spectrum Photocatalytic Properties under UV, Visible, and near-Infrared Irradiation.,
Yang, L.; Liu, B.; Liu, T.; Ma, X.; Li, H.; Yin, S.; Sato, T.; Wang, Y. , Scientific Reports, 8, 45715, 2017.
[97] Enhanced Transport Critical Current Density in Sn-Added SmFeAsO1-XFX Tapes Prepared by PIT Method.,
Zhang, Q.; Zhang, X.; Yao, C.; Huang, H.; Wang, D.; Dong, C.; Ma, Y.; Ogino, H.; Awaji, S. , Superconductor Science and Technology, , 2017.
[96] Recent Progress on Mixed-Anion Type Visible-Light Induced Photocatalysts.,
Zhao, Z.; Fan, J.; Chang, H.; Asakura, Y.; Yin, S. , Science China Technological Sciences, , 2017.
[95] Doping-Dependent Critical Current Properties in K, Co, and P-Doped BaF e 2 A s 2 Single Crystals.,
Ishida, S.; Song, D.; Ogino, H.; Iyo, A.; Eisaki, H.; Nakajima, M.; Shimoyama, J.; Eisterer, M., Physical Review B, 95, 1, , 2017.
[94] Thermal Ionization and Thermally Activated Crossover Quenching Processes for 5 d − 4 f Luminescence in Y 3 A l 5 − x G a x O 12 : P r 3 +.,
Ueda, J.; Meijerink, A.; Dorenbos, P.; Bos, A. J. J; Tanabe, S., Physical Review B, 95, 1, , 2017.
[93] Activation of the Carbon Nitride Surface by Silica in a CO-Evolving Hybrid Photocatalyst.,
Wada, K.; Eguchi, M.; Ishitani, O.; Maeda, K., ChemSusChem, 10, 1, 287 - 295, 2017.
[92] Solar-Driven Z-Scheme Water Splitting Using Tantalum/Nitrogen Co-Doped Rutile Titania Nanorod as an Oxygen Evolution Photocatalyst.,
Nakada, A.; Nishioka, S.; Vequizo, J. J. M.; Muraoka, K.; Kanazawa, T.; Yamakata, A.; Nozawa, S.; Kumagai, H.; Adachi, S.; Ishitani, O.; et al. , J. Mater. Chem. A, , 2017.
[91] セラミックスナノ多孔体 水熱炭化法によるカーボンスフィアの合成:細孔構造とキャパシタ特性.,
Miki, I., セラミックス, 52, 1, 38, 2017.
[90] Reversible Changes in Resistance of Perovskite Nickelate NdNiO3 Thin Films Induced by Fluorine Substitution.,
Onozuka, T.; Chikamatsu, A.; Katayama, T.; Hirose, Y.; Harayama, I.; Sekiba, D.; Ikenaga, E; Minohara, M.; Kumigashira, H.; Hasegawa, T., ACS Appl. Mater. Interfaces, 9, 12, 10882 - 10887, 2017.
[89] Cobalt Oxide Nanoclusters on Rutile Titania as Bifunctional Units for Water Oxidation Catalysis and Visible Light Absorption: Understanding the Structure–Activity Relationship.,
Maeda, K.; Ishimaki, K.; Okazaki, M.; Kanazawa, T.; Lu, D.; Nozawa, S.; Kato, H.; Kakihana, M. , ACS Appl. Mater. Interfaces, 9, 7, 6114 - 6122, 2017.
[88] High-Pressure Synthesis of Fully Occupied Tetragonal and Cubic Tungsten Bronze Oxides.,
Ikeuchi, Y.; Takatsu, H.; Tassel, C.; Goto, Y.; Murakami, T.; Kageyama, H., Angew. Chem. Int. Ed. , 56, 21, 5770 - 5773, 2017.
[87] Synthesis and Characterization of Glycolate Precursors to MTiO 3 (M = Ni 2+ , Co 2+ , Zn 2+ ).,
Takase, K.; Nishizawa, H.; Onda, A.; Yanagisawa, K.; Yin, S., Journal of Asian Ceramic Societies, 5, 4, 482 - 488, 2017.
[86] The Role of π-Blocking Hydride Ligands in a Pressure-Induced Insulator-to-Metal Phase Transition in SrVO2H.,
Yamamoto, T.; Zeng, D.; Kawakami, T.; Arcisauskaite, V.; Yata, K.; Patino, M. A.; Izumo, N.; McGrady, J. E.; Kageyama, H.; Hayward, M. A., Nature Communications, 8, 1, , 2017.
[85] New Insight into the Ground State of FePc: A Diffusion Monte Carlo Study.,
Ichibha, T.; Hou, Z.; Hongo, K.; Maezono, R., Scientific Reports, 7, 1, , 2017.
[84] Fly Ash Cenospheres as Multifunctional Supports of G-C 3 N 4 /N-TiO 2 with Enhanced Visible-Light Photocatalytic Activity and Adsorption.,
Zhao, Z.; Lei, Y.; Liu, W.; Fan, J.; Xue, D.; Xue, Y.; Yin, S. , Advanced Powder Technology, 28, 12, 3233 - 3240, 2017.
[83] Tuneable Pressure Effects in Graphene Oxide Layers.,
Sekimoto, Y.; Ohtani, R.; Nakamura, M.; Koinuma, M.; Lindoy, L. F.; Hayami, S., Scientific Reports , 7, 1, , 2017.
[82] A Sillenite-Type Bi 12 MnO 20 Photocatalyst: UV, Visible and Infrared Lights Responsive Photocatalytic Properties Induced by the Hybridization of Mn 3d and O 2p Orbitals.,
Wu, X.; Li, M.; Li, J.; Zhang, G.; Yin, S., Applied Catalysis B: Environmental, 219, 132 - 141, 2017.
[81] Effect of Conjugation Degree and Delocalized π-System on the Photocatalytic Activity of Single Layer g-C 3 N 4.,
Shi, A.; Li, H.; Yin, S.; Liu, B.; Zhang, J.; Wang, Y., Applied Catalysis B: Environmental , 218, 137 - 146, 2017.
[80] Vacuum Referred Binding Energy of 3 d Transition Metal Ions for Persistent and Photostimulated Luminescence Phosphors of Cerium-Doped Garnets.,
Ueda, J.; Hashimoto, A.; Takemura, S.; Ogasawara, K.; Dorenbos, P.; Tanabe, S., Journal of Luminescence, 192, 371 - 375, 2017.
[79] Pressure-Stabilized Cubic Perovskite Oxyhydride BaScO2H.,
Goto, Y.; Tassel, C.; Noda, Y.; Hernandez, O.; Pickard, C. J.; Green, M. A.; Sakaebe, H.; Taguchi, N.; Uchimoto, Y.; Kobayashi, Y.; et al., Inorg. Chem., , 2017.
[78] High-Temperature Electrochemical Crystal Growth of Hollandite-Type Cs x Ti 8 O 16 with Controlled Electronic Properties.,
Chiba, Y.; Saito, M.; Hagiwara, T.; Takatsu, H.; Kageyama, H.; Motohashi, T., Crystal Growth & Design, 17, 11, 5691 - 5696, 2017.
[77] Red Persistent Luminescence in Rare Earth-Free AlN:Mn 2+ Phosphor.,
Xu, J.; Cherepy, N. J.; Ueda, J.; Tanabe, S., Materials Letters , 206, 175 - 177, 2017.
[76] Facile Preparation of BiOX (X = Cl, Br, I) Nanoparticles and up-Conversion Phosphors/BiOBr Composites for Efficient Degradation of NO Gas: Oxygen Vacancy Effect and near Infrared Light Responsive Mechanism.,
Wu, X.; Zhang, K.; Zhang, G.; Yin, S., Chemical Engineering Journal, 325, 59 - 70, 2017.
[75] Oxygen Vacancies Confined in SnO 2 Nanoparticles for Desirable Electronic Structure and Enhanced Visible Light Photocatalytic Activity.,
Yang, Y.; Wang, Y.; Yin, S., Applied Surface Science, 420, 399 - 406, 2017.
[74] Remarkable Effects of Local Structure in Tantalum and Niobium Oxynitrides.,
Kikkawa, S.; Hosono, A.; Masubuchi, Y. , Progress in Solid State Chemistry, , 2017.
[73] Magnetic Iron Nitrides Inspired by Historic Research on Α″-Fe 16 N 2.,
Kikkawa, S.; Masubuchi, Y., Progress in Solid State Chemistry, , 2017.
[72] First-Principles Calculations on the Crystal/Electronic Structure and Phase Stability of H-Doped SrFeO2.,
Kurauchi, Y.; Kamisaka, H.; Katayama, T.; Chikamatsu, A.; Hasegawa, T. , J. Phys. Chem. C, 121, 13, 7478 - 7484, 2017.
[71] Thermoelectric properties of boron carbide/HfB2 composites.,
Innocent, J.-L.; Portehault, D.; Gouget, G.; Maruyama, S.; Ohkubo, I.; Mori, T., Materials for Renewable and Sustainable Energy, 6, 2, , 2017
DOI: 10.1007/s40243-017-0090-8.
[70] Photocatalytic reduction of carbon dioxide by strontium titanate nanocube-dispersed mesoporous silica.,
Ohashi, T.; Miyoshi, Y.; Katagiri, K.; Inumaru, K., Journal of Asian Ceramic Societies, , 2017
DOI: 10.1016/j.jascer.2017.04.008.
[69] Hypervalent Bismuthides La 3 MBi 5 (M = Ti, Zr, Hf) and Related Antimonides: Absence of Superconductivity.,
Murakami, T.; Yamamoto, T.; Takeiri, F.; Nakano, K.; Kageyama, H. , Inorganic Chemistry, 56, 9, 5041 - 5045, 2017
DOI: 10.1021/acs.inorgchem.7b00031.
[68] TiO 2 -zeolite photocatalysts made of metakaolin and rice husk ash for removal of methylene blue dye.,
Setthaya, N.; Chindaprasirt, P.; Yin, S.; Pimraksa, K., Powder Technology, 313, 417 - 426, 2017
DOI: 10.1016/j.powtec.2017.01.014.
[67] Temperature Dependence Low-Field Microwave Absorption in a Powder Sample of SmFeAs(O,F) Iron Pnictide Superconductor.,
Onyancha, R. B.; Shimoyama, J.; Singh, S. J.; Ogino, H.; Srinivasu, V. V. , Journal of Superconductivity and Novel Magnetism, 30, 4, 1097 - 1102, 2017
DOI: 10.1007/s10948-016-3845-z.
[66] Crystallization behavior of iron-based amorphous nanoparticles prepared sonochemically.,
Enomoto, N.; Hirata, S.; Inada, M.; Hayashi, K., Ultrasonics Sonochemistry, 35, 563 - 568, 2017
DOI: 10.1016/j.ultsonch.2016.04.033.
[65] Structural analysis and capacitive properties of carbon spheres prepared by hydrothermal carbonization.,
Inada, M.; Enomoto, N.; Hojo, J.; Hayashi, K., Advanced Powder Technology, 28, 3, 884 - 889, 2017
DOI: 10.1016/j.apt.2016.12.014.
[64] Thermoluminescence investigation on Y3Al5−xGaxO12:Ce3+-Bi3+ green persistent phosphors.,
Katayama, Y.; Hashimoto, A.; Xu, J.; Ueda, J.; Tanabe, S. , Journal of Luminescence, 183, 355 - 359, 2017
DOI: 10.1016/j.jlumin.2016.11.074.
[63] Adsorption behavior and wettability by Gemini surfactants with ester bond at polymer-solution-air systems.,
Chang, H.; Cui, Y.; Wei, W.; Li, X.; Gao, W.; Zhao, X.; Yin, S., Journal of Molecular Liquids, 230, 429 - 436, 2017
DOI: 10.1016/j.molliq.2017.01.056.
[62] Sintering behavior of dielectric SrTaO2N under high pressure of nitrogen.,
Hosono, A.; Masubuchi, Y.; Kikkawa, S., Ceramics International, 43, 2, 2737 - 2742, 2017
DOI: 10.1016/j.ceramint.2016.11.101.
[61] Anomalous non-resonant microwave absorption in SmFeAs(O,F) polycrystalline sample.,
Onyancha, R. B.; Shimoyama, J.; Singh, S. J.; Hayashi, K.; Ogino, H.; Srinivasu, V. V., Physica C: Superconductivity and its Applications, 533, 49 - 52, 2017
DOI: 10.1016/j.physc.2016.07.019.
[60] Comparison of photocatalytic reaction-induced selective corrosion with photocorrosion: Impact on morphology and stability of Ag-ZnO.,
Ma, X.; Li, H.; Liu, T.; Du, S.; Qiang, Q.; Wang, Y.; Yin, S.; Sato, T. , Applied Catalysis B: Environmental, 201, 348 - 358, 2017
DOI: 10.1016/j.apcatb.2016.08.029.
[59] Series of M x WO 3 /ZnO (M = K, Rb, NH 4 ) nanocomposites: Combination of energy saving and environmental decontamination functions.,
Wu, X.; Wang, J.; Zhang, G.; Katsumata, K.; Yanagisawa, K.; Sato, T.; Yin, S., Applied Catalysis B: Environmental, 201, 128 - 136, 2017
DOI: 10.1016/j.apcatb.2016.08.030.
[58] In-situ hydrothermal synthesis of Ag 3 PO 4 /g-C 3 N 4 composite and their photocatalytic decomposition of NOx.,
Zhao, Z.; Fan, J.; Liu, W.; Xue, Y; Yin, S., Journal of Alloys and Compounds, 695, 2812 - 2819, 2017
DOI: 10.1016/j.jallcom.2016.12.001.
[57] Liquid exfoliation graphene sheets as catalysts for hybrid sodium-air cells.,
Liang, F.; Watanabe, T.; Hayashi, K.; Yao, Y.; Ma, W.; Bin Yang; Dai, Y., Materials Letters, 187, 32 - 35, 2017
DOI: 10.1016/j.matlet.2016.10.054.
[56] Effect of rutile TiO 2 on the photocatalytic performance of g-C 3 N 4 /brookite-TiO 2-x N y photocatalyst for NO decomposition.,
Li, H.; Wu, X.; Yin, S.; Katsumata, K.; Wang, Y., Applied Surface Science, 392, 531 - 539, 2017
DOI: 10.1016/j.apsusc.2016.09.075.
[55] Preparation and optical property of gallium zinc oxynitride powder and nanocrystals with sawtooth-like appearance.,
Kamura, A.; Masubuchi, Y.; Motohashi, T.; Kikkawa, S., Research Bulletin, 87, 130 - 134, 2017
DOI: 10.1016/j.materresbull.2016.11.013.
[54] The Impact of Metal Complex Lipids on Viscosity and Curvature of Hybrid Liposomes.,
Ohtani, R.; Tokita, T.; Takaya, T.; Iwata, K.; Kinoshita, M.; Matsumori, N.; Nakamura, M.; Lindoy, L. F.; Hayami, S., Chemical Communications, 53, 99, 13249 - 13252, 2017.
[53] Effects of the SrTiO 3 support on visible-light water oxidation with Co 3 O 4 nanoparticles.,
Okazaki, M.; Eguchi, M.; Uchiyama, T.; Lu, D.; Kato, H.; Uchimoto, Y.; Kakihana, M.; Maeda, K., Dalton Transactions, 46, 48, 16959 - 16966, 2017
DOI: 10.1039/C7DT03444J.
[52] Crystal Chemistry of New Layered Oxyhalide Perovskites with Anion Order.,
Tsujimoto, Y. , Nihon Kessho Gakkaishi, 59, 5, 223 - 229, 2017
DOI: 10.5940/jcrsj.59.223.
[51] Molten BaCN 2 for the sintering and crystal growth of dielectric oxynitride perovskites Sr 1−x Ba x TaO 2 N ( x = 0.04–0.23).,
Hosono, A.; Masubuchi, Y; Endo, T.; Kikkawa, S., Dalton Transactions, , 2017
DOI: 10.1039/C7DT03765A.
[50] On Hydride Diffusion in Transition Metal Perovskite Oxyhydrides Investigated via Deuterium Exchange.,
Tang, Y.; Kobayashi, Y.; Shitara, K.; Konishi, A.; Kuwabara, A.; Nakashima, T.; Tassel, C.; Yamamoto, T.; Kageyama, H., IChem. Mater., , 2017
DOI: 10.1021/acs.chemmater.7b02240.
[49] Structures, electron density and characterization of novel photocatalysts, (BaTaO2N) 1−x(SrWO2N) x solid solutions.,
Hibino, K.; Yashima, M.; Oshima, T.; Fujii, K.; Maeda, K., Dalton Transactions, 46, 43, 14947 - 14956, 2017
DOI: 10.1039/C7DT02873C.
[48] The role of Ln3+ (Ln = Eu, Yb) in persistent red luminescence in MgGeO3 :Mn2+.,
Katayama, Y.; Kayumi, T.; Ueda, J.; Dorenbos, P.; Viana, B.; Tanabe, S., J. Mater. Chem. C, 5, 34, 8893 - 8900, 2017
DOI: 10.1039/C7TC03151C.
[47] Cr3+ /Er3+ co-doped LaAlO3 perovskite phosphor: a near-infrared persistent luminescence probe covering the first and third biological windows.,
Xu, J.; Murata, D.; Katayama, Y.; Ueda, J.; Tanabe, S., J. Mater. Chem. B, 5, 31, 6385 - 6393, 2017
DOI: 10.1039/C7TB01332A.
[46] Elucidating the impact of A-site cation change on photocatalytic H2 and O2 evolution activities of perovskite-type LnTaON2 (Ln = La and Pr).,
Hojamberdiev, M.; Bekheet, M. F.; Hart, J. N.; Vequizo, J. J. M.; Yamakata, A.; Yubuta, K.; Gurlo, A.; Hasegawa, M.; Domen, K.; Teshima, K., Phys. Chem. Chem. Phys., 19, 33, 22210 - 22220, 2017
DOI: 10.1039/C7CP03714G.
[45] Syntheses, structures and magnetic properties of tetranuclear cubane-type and heptanuclear wheel-type nickel( ii ) complexes with 3-methoxysalicylic acid derivatives.,
Kobayashi, F.; Ohtani, R.; Teraoka, S.; Kosaka, W.; Miyasaka, H.; Zhang, Y.; Lindoy, L. F.; Hayami, S.; Nakamura, M., Dalton Trans., 46, 26, 8555 - 8561, 2017
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[44] Photocatalytic activity of silicon-based nanoflakes for the decomposition of nitrogen monoxide.,
Itahara, H.; Wu, X.; Imagawa, H.; Yin, S.; Kojima, K.; Chichibu, S. F.; Sato, T., Dalton Trans., 46, 26, 8643 - 8648, 2017
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[43] Chromium-substituted hematite powder as a catalytic material for photochemical and electrochemical water oxidation.,
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[42] Flicker Suppression of AC Driven White LED by Yellow Persistent Phosphor of Ce3+–Cr3+ Co-doped Garnet.,
Asami, K.; Ueda, J.; Tanabe, S., Journal of Science and Technology in Lighting, , 2017
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[41] Synthesis, structure and photocatalytic activity of layered LaOInS2.,
Miura, A.; Oshima, T.; Maeda, K.; Mizuguchi, Y.; Moriyoshi, C.; Kuroiwa, Y.; Meng, Y.; Wen, X.-D.; Nagao, M.; Higuchi, M.; et al., J. Mater. Chem., 5, 27, 14270 - 14277, 2017
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[40] Utilizing nanotechnology and novel materials \& concepts for advanced thermoelectric and thermal management technology development*.,
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[39] Synthesis and photocatalytic activity of K2 CaNaNb3 O10, a new Ruddlesden–Popper phase layered perovskite.,
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[38] A layered wide-gap oxyhalide semiconductor with an infinite ZnO2 square planar sheet: Sr2 ZnO2 Cl2.,
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[37] Selective and low temperature transition metal intercalation in layered tellurides.,
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[36] Ratiometric Optical Thermometer Based on Dual Near-Infrared Emission in Cr 3+ -Doped Bismuth-Based Gallate Host.,
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[35] Study on Trap Levels in SrSi 2 AlO 2 N 3 :Eu 2+ ,Ln 3+ Persistent Phosphors Based on Host-Referred Binding Energy Scheme and Thermoluminescence Analysis.,
Zhuang, Y.; Lv, Y.; Li, Y.; Zhou, T.; Xu, J.; Ueda, J.; Tanabe, S.; Xie, R.-J. , Inorganic Chemistry, 55, 22, 11890 - 11897, 2016
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[34] High-pressure synthesis of the layered iron oxyselenide BaF e 2 S e 2 O with strong magnetic anisotropy.,
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[33] Synthesis and gas sensing properties of SnO2 nanoparticles with different morphologies.,
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[32] A new implementation of ab initio ehrenfest dynamics using electronic configuration basis: Exact formulation with molecular orbital connection and effective propagation scheme with locally quasi-diabatic representation: FULL PAPER.,
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[31] A Comparison on Ce 3+ Luminescence in Borate Glass and YAG Ceramic: Understanding the Role of Host's Characteristics.,
Sontakke, A. D.; Ueda, J.; Xu, J.; Asami, K.; Katayama, M.; Inada, Y.; Tanabe, S., The Journal of Physical Chemistry C, 120, 31, 17683 - 17691, 2016
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[30] Proton-Transfer Dynamics in Protonated Benzene.,
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[29] Persistent luminescence properties of Cr^3+-Sm^3+ activated LaAlO_3 perovskite.,
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[28] Atomic-Scale Analysis of the RuO 2 /Water Interface under Electrochemical Conditions.,
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[27] Photostimulation induced persistent luminescence in Y_3Al_2Ga_3O_12:Cr^3+.,
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[26] Solvothermal synthesis of different phase N–TiO2 and their kinetics, isotherm and thermodynamic studies on the adsorption of methyl orange.,
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[25] ZnTaO2N: Stabilized High-Temperature LiNbO3-type Structure.,
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[24] Enhanced Photocatalytic Performance of Luminescent g-C3N4 Photocatalyst in Darkroom.,
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[23] Trap depth and color variation of Ce3+-Cr3+ co-doped Gd3(Al,Ga)5O12 garnet persistent phosphors.,
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[22] Hybrid Sodium–Air Cell with Na[FSA–C2C1im][FSA] Ionic Liquid Electrolyte.,
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[21] Oxidation of Pentatitanium Trisilicide (Ti5Si3) Powder at High Temperature.,
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[20] Theoretical studies on ammonia borane dehydrogenation catalyzed by iron pincer complexes.,
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[19] Smart window coating based on F-TiO2-KxWO3 nanocomposites with heat shielding, ultraviolet isolating, hydrophilic and photocatalytic performance.,
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[18] The highly active saddle-like Ag3PO4 photocatalyst under visible light irradiation.,
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[17] Significance of host׳s intrinsic absorption band tailing on Ce3+ luminescence quantum yield in borate glass,
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[16] Effect of synthesis conditions on Ce 3+ luminescence in borate glasses.,
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[15] Locally ordered structure and dielectric property of perovskite type oxynitrides.,
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[14] Synthesis and development of titania with controlled structures.,
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[13] Hydrothermal Synthesis of Tetragonal Barium Titanate Rod-like Crystal.,
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[12] Spectroscopic properties and location of the Ce 3+ energy levels in Y 3 Al 2 Ga 3 O 12 and Y 3 Ga 5 O 12 at ambient and high hydrostatic pressure.,
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[11] Novel persistent phosphors of lanthanide–chromium co-doped yttrium aluminum gallium garnet: design concept with vacuum referred binding energy diagram.,
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[10] Near-infrared long persistent luminescence of Er 3+ in garnet for the third bio-imaging window.,
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[9] Editors' Choice—Investigation of Luminescence and Photoacoustic Properties in Ce 3+ -Doped Ln 3 Al 5 O 12 ( Ln = Lu, Y, Gd) Garnet.,
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[8] Quantitative Measurement and Analysis of Annular Dark-Field STEM Image for Crystal Structure Analysis.,
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[7] XAFS study on a photodeposition process of Pt nanoparticles on TiO 2 photocatalyst.,
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[6] XAFS analysis for quantification of the gallium coordinations in Al 2 O 3 -supported Ga 2 O 3 photocatalysts.,
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[5] Ag K- and L 3 -edge XAFS study on Ag species in Ag/Ga 2 O 3 photocatalysts,
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[4] Storage of Pd/Mg composite Nanoparticles Fabricated by Gas Evaporation Method.,
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[3] Pressure-Induced Transitions in Square Planar Coordinate Metal Oxides.,
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[2] Anatase Type Titanium Dioxide Prepared by Oxidation of Titanium Carbide.,
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[1] 光触媒酸化チタンナノ粒子の構造機能制御とその応用 (特集 高機能セラミックスと粉体技術の最新潮流をさぐる).,
稲田幹, 工業材料, 64, 12, 56 - 60, 2016
DOI: http://ci.nii.ac.jp/naid/40021020083/.