連絡先
〒565-0871
大阪府吹田市山田丘2-1
大阪大学大学院
工学研究科
応用化学専攻
TEL:06-6879-7353
FAX:06-6879-7354
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業績一覧(2001年〜)
1. N. Imanaka, K. Okamoto, and G. Adachi, "A Chlorine Gas Sensor Based on the Combination of Mg2+ Cation Conducting and O2- Anion Conducting Solid Electrolytes with Lanthanum Oxychloride as an Auxiliary Electrode," Electrochem. Commun., 3, 49-51 (2001).
2. S. Tamura, N. Imanaka, M. Kamikawa, and G. Adachi, "A CO2 Sensor Based on a Sc3+ Conducting Sc1/3Zr2(PO4)3 Solid Electrolyte," Sens. Actuators B: Chem., 73, 205-210 (2001).
3. N. Imanaka, K. Okazaki, and G. Adachi, "Chloride Ion Conducting Characteristics in Rare Earth Oxychlorides," Chem. Lett., 30, 130-131 (2001).
4. N. Imanaka, M. Kamikawa, and G. Adachi, "Carbon Dioxide Gas Sensing with the Combination of Divalent Magnesium Cation and Divalent Oxide Anion Conducting Solid Electrolytes with Neodymium Oxycarbonate Based Auxiliary Electrode," Electroanalysis, 13, 1291-1294 (2001).
5. N. Imanaka, M. Kamikawa, S. Tamura, and G. Adachi, "Carbon Dioxide Gas Sensor with Multivalent Cation Conducting Solid Electrolytes," Sens. Actuators B: Chem., 77, 301-306 (2001).
6. G. Adachi, N. Imanaka, and S. Tamura, "Rare Earth Ion Conduction in Solids," J. Alloys Compd., 323-324, 534-539 (2001).
7. S. Tamura, N. Imanaka, and G. Adachi, "Trivalent Cation Conduction in R1/3Zr2(PO4)3 (R : Rare Earths) with the NASICON-type Structure," J. Alloys Compd., 323-324, 540-544 (2001).
8. N. Imanaka, T. Ueda, and G. Adachi, "Extraordinary High Tetravalent Cation Conducting Behaviors in Solid," Chem. Lett., 30, 446-447 (2001).
9. R.A. Secco, H. Liu, N. Imanaka, and G. Adachi, "Pressure-induced Amorphization in Negative Thermal Expansion Sc2(WO4)3," J. Mater. Sci. Lett., 20, 1339-1340 (2001).
10. N. Imanaka, Y. Okazaki, and G. Adachi, "Optimization of Divalent Magnesium Ion Conduction in Phosphate Based Polycrystalline Solid Electrolytes," Ionics, 7, 440-446 (2001).
11. S. Tamura, N. Imanaka, and G. Adachi, "The Enhancement of Trivalent Ion Conductivity in NASICON type Solid Electrolytes," J. Mater. Sci. Lett., 20, 2123-2125 (2001).
12. S. Tamura, N. Imanaka, and G. Adachi, "Optimization of Sc3+ Ion Conduction in NASICON Type Solid Electrolytes," Chem. Lett., 30, 672-673 (2001).
13. N. Imanaka, A. Ogura, M. Kamikawa, and G. Adachi, "CO2 Gas Sensor with the Combination of Tetravalent Zirconium Cation and Divalent Oxide Anion Conducting Solids with Water-insoluble Oxycarbonate Electrode," Electrochem. Commun., 3, 451-454 (2001).
14. N. Imanaka, A. Ogura, M. Kamikawa, and G. Adachi, "High Performance CO2 Gas Sensing with Combination of Multivalent Ion Conducting Solid Electrolytes with Water-Insoluble Auxiliary Electrode," Chem. Lett., 30, 718-719 (2001).
15. J. Kawamura, K. Morota, N. Kuwata, Y. Nakamura, H. Maekawa, T. Hattori, N. Imanaka, Y. Okazaki, and G. Adachi, "High Temperature 31P NMR Study on Mg2+ Ion Conductors," Solid State Commun., 120, 295-298 (2001).
16. T. Masui, T. Ozaki, K. Nakano, G. Adachi, Z.C. Kang, and L. Eyring, "Redox Behavior of Ceria-Zirconia Solid Solutions Modified by the Chemical Filing Process," Chem. Mater., 13(5), 1834-1840 (2001).
17. T. Chiga, T. Masui, N. Imanaka, and G. Adachi, "Preparation of Fine Sr2CeO4 Particles for a Blue Phosphor," Chem. Lett., 30, 1246-1247 (2001).
18. N. Imanaka, M. Itaya, and G. Adachi, "First Identification of Tetravalent Hf4+ Ion-Conducting Solid," Mater. Lett., 53, 1-5 (2002).
19. R.A. Secco, H. Liu, N. Imanaka, G. Adachi, and M.D. Rutter, "Electrical Conductivity and Amorphization of Sc2(WO4)3 at High Pressures and Temperatures," J. Phys. Chem. Solids, 63, 425-431 (2002).
20. N. Imanaka, J. Kohler, S. Tamura, and G. Adachi, "Ion Conducting Behavior in (Lu1-xMx)2(WO4)3 Solid Solutions (M = Sm, Ho, Er) with the Sc2(WO4)3 Type Structure," Eur. J. Inorg. Chem., 2002, 105-109 (2002).
21. H. Liu, R.A. Secco, N. Imanaka, and G. Adachi, "X-ray Diffraction Study of Pressure-induced Amorphization in Lu2(WO4)3," Solid State Commun., 121, 177-180 (2002).
22. T. Masui, K. Fukuhara, N. Imanaka, T. Sakata, H. Mori, and G. Adachi, "Effects of Titanium Oxide on the Optical Properties of Cerium Oxide," Chem. Lett., 31, 474-475 (2002).
23. N. Imanaka, M. Hiraiwa, S. Tamura, G. Adachi, H. Dabkowska, and A. Dabkowski, "Al3+ Ion Conducting Behavior in Single crystal of Aluminum Tungstate-Scandium Tungstate Solid Solution," Mater. Lett., 55, 93-96 (2002).
24. T. Masui, H. Hirai, N. Imanaka, G. Adachi, T. Sakata, and H. Mori, "Synthesis of Cerium Oxide Nanoparticles by Hydrothermal Crystallization with Citric Acid," J. Mater. Sci. Lett., 21, 489-491 (2002).
25. N. Imanaka and G. Adachi, "Rare Earth Ion Conduction in Tungstate and Phosphate Solids," J. Alloys Compd., 344, 137-140 (2002).
26. G. Adachi, N. Imanaka, and S. Tamura, "Ionic Conducting Lanthanide Oxides," Chem. Rev., 102, 2405-2429 (2002).
27. N. Imanaka, M. Itaya, and G. Adachi, "The Enhancement of Hf4+ Ion Conduction in V-doped HfNb(PO4)3," Mater. Lett., 57, 209-212 (2002).
28. K. Okamoto, N. Imanaka, and G. Adachi, "Chloride Ion Conduction in Rare Earth Oxychlorides," Solid State Ionics, 154-155, 577-580 (2002).
29. S. Tamura, N. Imanaka, and G. Adachi, "Trivalent Ion Conduction in NASICON Type Solid Electrolyte Prepared by Ball Milling," Solid State Ionics, 154-155, 767-771 (2002).
30. N. Imanaka, M. Itaya, T. Ueda, and G. Adachi, "Tetravalent Zr4+ or Hf4+ Ion Conduction in NASICON type Solids," Solid State Ionics, 154-155, 319-323 (2002).
31. N. Imanaka, S. Yoshikawa, M. Hiraiwa, S. Tamura, and G. Adachi, "Considerable Enhancement in Mechanical Strength of Trivalent Sc3+ Ion-Conducting Sc2(WO4)3 Solid Electrolyte by Germanium Dioxide Addition," Mater. Lett., 56, 856-860 (2002).
32. N. Imanaka, M. Hiraiwa, S. Tamura, G. Adachi, H. Dabkowska, and A. Dabkowski, "Anisotropic Trivalent Ion Conducting Behavior in Single Crystals of Aluminum Tungstate-Scandium Tungstate Solid Solution," J. Mater. Sci., 37, 3483-3487 (2002).
33. N. Imanaka, K. Okamoto, and G. Adachi, "New Type of Sodium Ion Conducting Solid Electrolyte Based on Lanthanum Oxysulfate," Electrochem. Solid State Lett., 5, E51-E53 (2002).
34. N. Imanaka, M. Kamikawa, and G. Adachi, "A Carbon Dioxide Gas Sensor by Combination of Multivalent Cation and Anion Conductors with a Water-Insoluble Oxycarbonate-Based Auxiliary Electrode," Anal. Chem., 74, 4800-4804 (2002).
35. R.A. Secco, H. Liu, N. Imanaka, and G. Adachi, "Anomalous Ionic Conductivity of Sc2(WO4)3 Mediated by Structural Changes at High Pressures and Temperatures," J. Phys.: Condens. Matter, 14, 11285-11289 (2002).
36. N. Imanaka, A. Oda, S. Tamura, and G. Adachi, "Nitrogen Monoxide Gas Sensor Based on Solid Electrolytes with a Water-Insoluble Oxide Based Auxiliary Electrode," Electrochem. Solid State Lett., 5, H25-H26 (2002).
37. H. Liu, R.A. Secco, N. Imanaka, M. Itaya, and G. Adachi, "Pressure-enhanced Tetravalent Hf4+ Ion Conduction in HfNb(PO4)3," Solid State Commun., 123, 411-415 (2002).
38. N. Imanaka, K. Okamoto, and G. Adachi, "Water-Insoluble Lanthanum Oxychloride-Based Solid Electrolytes with Ultra-High Chloride Ion Conductivity," Angew. Chem. Int. Ed., 41, 3890-3892 (2002).
39. N. Imanaka, Y. Hasegawa, M. Yamaguchi, M. Itaya, S. Tamura, and G. Adachi, "Extraordinary High Trivalent Al3+ Ion Conduction in Solids," Chem. Mater., 14, 4481-4483 (2002).
40. T. Masui, R. Hamada, G. Adachi, T. Sakata, and H. Mori, "New Method to Synthesize BN-coated Cerium Oxide Using Condensation of Boric Acid and 2,2'-Iminodiethanol," J. Alloys Compd., 344, 148-151 (2002).
41. K. Nakano, T. Masui, and G. Adachi, "Redox Behavior of Ceria-Zirconia Mixed Oxides Modified by the Chemical Filing Process," J. Alloys Compd., 344, 342-346 (2002).
42. N. Imanaka, A. Ogura, and G. Adachi, "Practical Smart CO2 Gas Sensor Applicable for In-situ Real Time Monitoring," Electrochemistry, 71, 14-18 (2003).
43. Y.W. Kim, A. Oda, and N. Imanaka, "Extraordinary High Potassium Ion Conducting Polycrystalline Solids Based on Gadolinium Oxide-Potassium Nitrite Solid Solution," Electrochem. Commun., 5, 94-97 (2003).
44. N. Imanaka, "The Development of Multivalent Ion Conductors and Their Application for Chemical Sensors," Ionics, 9, 36-40 (2003).
45. H. Liu, R.A. Secco, N. Imanaka, M.D. Rutter, G. Adachi, and T. Uchida, "Ionic to Electronic Dominant Conductivity in Al2(WO4)3 at High Pressure and High Temperature," J. Phys. Chem. Solids, 64, 287-294 (2003).
46. N. Imanaka, T. Masui, and M. Itaya, "Synthesis of an Environmentally Friendly and Nontoxic New Pigment Based on Rare Earth Phosphate," Chem. Lett., 32, 400-401 (2003).
47. N. Imanaka, K. Okamoto, and G. Adachi, "A New Type of Chlorine Gas Sensor with the Combination of Cl- Anion and Al3+ Cation Conducting Solid Electrolytes," Mater. Lett., 57, 1966-1969 (2003).
48. T. Masui, T. Chiga, N. Imanaka, and G. Adachi, "Synthesis and Luminescence of Sr2CeO4 Fine Particles," Mater. Res. Bull., 38, 17-24 (2003).
49. T. Masui, H. Hirai, R. Hamada, N. Imanaka, G. Adachi, and T. Sakata, "Synthesis and Characterization of Cerium Oxide Nanoparticles Coated with Turbostratic Boron Nitride," J. Mater. Chem., 13, 622-627 (2003).
50. N. Imanaka, T. Masui, H. Hirai, and G. Adachi, "Amorphous Cerium-Titanium Solid Solution Phosphate as a Novel Family of Band Gap Tunable Sunscreen Materials," Chem. Mater., 15, 2289-2291 (2003).
51. T. Masui, H. Hirai, N. Imanaka, and G. Adachi, "Characterization and Thermal Behavior of Amorphous Cerium Phosphate," Phys. Status Solidi A-Appl. Mat., 198, 364-368 (2003).
52. N. Imanaka and Y. Kato, "A New Type of Bromide Anion Conducting Solid," Chem. Commun., , 1270-1271 (2003).
53. N. Imanaka and I. Hasegawa, "Nitrogen Monoxide Gas Sensor Operating at Intermediate Temperature Region," Sens. Lett., 1, 51-55 (2003).
54. N. Imanaka and K. Okamoto, "Sulfur Dioxide Gas Sensor Based on Mg2+ and O2- Ion Conducting Solids with Barium Sulfate Auxiliary Electrode," ITE Lett., 4, 73-75 (2003).
55. N. Imanaka, Y.W. Kim, T. Masui, and G. Adachi, "Electrochemical Sc2O3 Single Crystal Growth," Cryst. Growth Des., 3, 289-290 (2003).
56. N. Imanaka, K. Okamoto, and G. Adachi, "New Chlorine Gas Sensor fabricated from Chlorine Anion- and Scandium (III) Cation-Conducting Solid Electrolytes," Sens. Actuators B: Chem., 93, 233-236 (2003).
57. N. Imanaka, T. Ueda, and G. Adachi, "Tetravalent Zr4+ Ion Conduction in NASICON-Type Phosphate Solids," J. Solid State Electrochem., 7, 239-243 (2003).
58. N. Imanaka, S. Tamura, and A. Mori, "Novel Li+ Ion-Conductive Solid of LiNO3 with (Gd0.9La0.1)2O3," Electrochemistry, 71, 1039-1041 (2003).
59. A. Oda, N. Imanaka, and G. Adachi, "New Type of Nitrogen Oxide Sensor with Multivalent Cation- and Anion-Conducting Solid Electrolytes," Sens. Actuators B: Chem., 93, 229-232 (2003).
60. Y. Hasegawa, N. Imanaka, and G. Adachi, "Cerium Ion Conducting Solid Electrolyte," J. Solid State Chem., 171, 387-390 (2003).
61. Y. Hasegawa, A. Oda, N. Imanaka, and G. Adachi, "Carbon Dioxide and Nitrogen Monoxide Gas Sensing by Applying Newly Developed Cerium Ion Conducting Solid Electrolyte," Electrochemistry, 71, 402-404 (2003).
62. Y.W. Kim, T. Masui, A. Oda, S. Tamura, and N. Imanaka, "Solution of Potassium Nitrate into Gadolinium Oxide Lattice," Phys. Status Solidi A-Appl. Mat., 198, 369-373 (2003).
63. N. Imanaka, A. Oda, S. Tamura, G. Adachi, T. Maekawa, T. Tsumeishi, and H. Ishikawa, "Carbon Dioxide Gas Sensor Suitable for In Situ Monitoring," Electrochem. Solid State Lett., 7, H12-H14 (2004).
64. N. Imanaka, T. Masui, and T. Chiga, "Synthesis and Luminescent Properties of Fine Particles of (Y1-xLax)2O3:Eu3+ Solid Solutions," Electrochem. Solid State Lett., 7, D7-D9 (2004).
65. H. Hirai, T. Masui, N. Imanaka, and G. Adachi, "Characterization and Thermal Behavior of Amorphous Rare Earth Phosphates," J. Alloys Compd., 374, 84-88 (2004).
66. T. Masui, Y.W. Kim, N. Imanaka, and G. Adachi, "Electrochemical Sc2O3 Single Crystal Growth," J. Alloys Compd., 374, 97-100 (2004).
67. S. Tamura, K. Koyabu, T. Masui, and N. Imanaka, "Lithium Carbonate Flux Effects on the Luminescence Properties of Europium-doped Lanthanum Oxycarbonate Phosphor," Chem. Lett., 33, 58-59 (2004).
68. N. Imanaka, A. Oda, S. Tamura, and G. Adachi, "Total Nitrogen Oxides Gas Sensor Based on Solid Electrolytes with Refractory Oxide-Based Auxiliary Electrode," J. Electrochem. Soc., 151, H113-H116 (2004).
69. N. Imanaka, T. Masui, Y.W. Kim, and G. Adachi, "Electrochemical In2O3 Single Crystal Growth," J. Cryst. Growth, 264, 134-138 (2004).
70. N. Imanaka, Y.W. Kim, T. Masui, T. Sakata, and H. Mori, "Electrochemical Growth of Alumina Single Crystal Alumina Nanoparticles Using Al3+ Ion Conducting Solid Electrolytes," Electrochemistry, 72, 405-407 (2004).
71. Y. Hasegawa, S. Tamura, N. Imanaka, G. Adachi, Y. Takano, T. Tsubaki, and K. Sekizawa, "Trivalent Praseodymium Ion Conducting Solid Electrolyte Composite with NASICON Type Structure," J. Alloys Compd., 375, 212-216 (2004).
72. Y. Kato and N. Imanaka, "Br- Anion Conducting Properties in La1-xMxOBr1-x Solid (M = Ca, Sr)," Solid State Ionics, 175, 455-458 (2004).
73. S. Tamura, A. Mori, and N. Imanaka, "Li+ Ion Conduction in (Gd, La)2O3-LiNO3 System," Solid State Ionics, 175, 467-470 (2004).
74. Y. Hasegawa, S. Tamura, N. Imanaka, and G. Adachi, "New Trivalent Ion Conducting Solid Electrolyte with the NASICON Type Structure," J. Alloys Compd., 379, 262-265 (2004).
75. T. Masui, H. Tategaki, and N. Imanaka, "Preparation and Characterization of SiO2-CeO2 Particles Applicable for Environment-Friendly Yellow Pigments," J. Mater. Sci., 39, 4909-4911 (2004).
76. T. Masui, Y.W. Kim, and N. Imanaka, "C-type Cubic Y2O3 Single Crystal Growth by Electrolysis of Y3+ Ion Conducting Solid Electrolyte," Solid State Ionics, 174, 67-71 (2004).
77. N. Imanaka, T. Masui, and Y.W. Kim, "First Electrochemical Growth of δ-Al2O3 Single Crystal," Cryst. Growth Des., 4, 663-665 (2004).
78. N. Imanaka, T. Masui, and Y.W. Kim, "First Electrochemical Growth of Tb16O30 Single Crystal," J. Solid State Chem., 177, 3839-3842 (2004).
79. T. Masui, H. Tategaki, S. Furukawa, and N. Imanaka, "Synthesis and Characterization of New Environmentally-Friendly Pigments Based on Cerium Phosphate," J. Ceram. Soc. Jpn., 112, 646-649 (2004).
80. N. Imanaka, Y. Hasegawa, and I. Hasegawa, "Novel Trivalent Cation Conducting Solids and Their Application," Ionics, 10, 385-390 (2004).
81. S. Tamura, Y.W. Kim, T. Masui, and N. Imanaka, "Electrochemical Growth of Nanometer-Sized δ-Al2O3 Single Crystals by Use of Al3+ Conducting Solid Electrolyte," Solid State Ionics, 173, 131-134 (2004).
82. N. Imanaka, T. Masui, and H. Hirai, "Stabilization of Amorphous Titanium Pyrophosphate by Niobium or Tantalum Doping," J. Mater. Sci., 40, 3309-3311 (2005).
83. N. Imanaka, T. Masui, and Y. Kato, "Preparation of the Cubic-Type La2O3 Phase by Thermal Decomposition of LaI3," J. Solid State Chem., 178, 395-398 (2005).
84. I. Hasegawa, S. Tamura, and N. Imanaka, "Solid Electrolyte Type Nitrogen Monoxide Gas Sensor Operating at Intermediate Temperature Region," Sens. Actuators B: Chem., 108, 314-318 (2005).
85. S. Tamura, I. Hasegawa, N. Imanaka, T. Maekawa, T. Tsumiishi, K. Suzuki, H. Ishikawa, A. Ikeshima, Y. Kawabata, N. Sakita, and G. Adachi, "Carbon Dioxide Gas Sensor Based on Trivalent Cation and Divalent Oxide Anion Conducting Solids with Rare Earth Oxycarbonate Based Auxiliary Electrode," Sens. Actuators B: Chem., 108, 359-363 (2005).
86. I. Hasegawa, Y. Hasegawa, and N. Imanaka, "SO2 Gas Sensor Based on Al3+ and O2- Ion Conducting Solids with La2O2SO4 Auxiliary Electrode," Sens. Lett., 3, 27-30 (2005).
87. T. Masui, K. Koyabu, S.Tamura, and N. Imanaka, "Synthesis of a New Green-Emitting Phosphor Based on Lanthanum Oxycarbonate (La2O2CO3-II)," J. Mater. Sci., 40, 4121-4123 (2005).
88. N. Imanaka, "Novel Multivalent Cation Conducting Ceramics and Their Application," J. Ceram. Soc. Jpn., 113, 387-393 (2005).
89. T. Masui, Y. Mayama, K. Koyabu, and N. Imanaka, "Synthesis of New Green-Emitting Gd2O2CO3:Tb3+ Fine Particles with High Luminescence Intensities," Chem. Lett., 34, 1236-1237 (2005).
90. T. Masui, S. Furukawa, and N. Imanaka, "Preparation and Characterization of Amorphous Ce1-xZrxW2O8 Fine Particles for Environmental-Friendly Yellow Pigments," Chem. Lett., 34, 1322-1323 (2005).
91. Y. Hasegawa and N. Imanaka, "Effect of the Lattice Volume on the Al3+ Ion Conduction in NASICON Type Solid Electrolyte," Solid State Ionics, 176, 2499-2503 (2005).
92. N. Imanaka, Y.W. Kim, K. Ando, and S. Tamura, "K+ Ion Conducting Properties in the R2O3-KNO3 (R: Rare Earths) Solid Solution Series," J. Mater. Sci., 40, 3689-3692 (2005).
93. N. Imanaka and S. Tamura, "Carbon Dioxide Gas Sensors," Enc. of Sensor, 2(Ca-D), 13-24 (2005).
94. Y. Hasegawa, S. Tamura, and N. Imanaka, "Effect of Low-Melting Oxide Additives on the Sinterability and Ion Conductivity of Al3+ Ion Conducting Solid Electrolytes with the NASICON Type Structure," J. New Mat. Electrochem. Syst., 8, 203-207 (2005).
95. N. Imanaka and Y. Kato, "Novel Bromide Anion Conducting Refractory Solid Electrolytes Based on Lanthanum Oxybromide," J. Mater. Sci., 40, 6495-6498 (2005).
96. N. Imanaka, T. Masui, Y. Mayama, and K. Koyabu, "Synthesis of Crystalline Yttrium Oxycarbonate in a Single Phase," J. Solid State Chem., 178, 3601-3603 (2005).
97. N. Imanaka, T. Masui, K. Minami, and K. Koyabu, "Promotion of Low-Temperature Reduction Behavior of the CeO2-ZrO2-Bi2O3 Solid Solution by Addition of Silver," Chem. Mater., 17, 6511-6513 (2005).
98. T. Masui, H. Hirai, and N. Imanaka, "New Sunscreen Materials Based on Amorphous Cerium and Titanium Phosphate," J. Alloys Compd., 408-412, 1141-1144 (2006).
99. K. Koyabu, T. Masui, S. Tamura, and N. Imanaka, "Synthesis of a New Phosphor Based on Rare Earth Oxycarbonate," J. Alloys Compd., 408-412, 867-870 (2006).
100. K. Minami, T. Masui, N. Imanaka, L. Dai, and B. Pacaud, "Redox Behavior of CeO2-ZrO2-Bi2O3 and CeO2-ZrO2-Y2O3 Solid Solutions at Moderate Temperatures," J. Alloys Compd., 408-412, 1132-1135 (2006).
101. S. Tamura, Y. Kato, and N. Imanaka, "Ionic Conducting Properties in LaOCl-LaOBr Solid Solutions," J. Alloys Compd., 408-412, 653-656 (2006).
102. K. Ando, S. Tamura, and N. Imanaka, "Potassium Ion Conductivity of KNO2 Mixed Oxides," J. Alloys Compd., 408-412, 657-660 (2006).
103. Y. Hasegawa and N. Imanaka, "New Trivalent Rare Earth Ion (La, Nd, Gd) Conducting Solid Electrolytes," J. Alloys Compd., 408-412, 661-664 (2006).
104. T. Maekawa, Y. Kawabata, Y. Nakazato, H. Ishikawa, S. Tamura, and N. Imanaka, "A Smart Carbon Dioxide Gas Sensor Based on Solid Electrolytes," Electrochemistry, 74, 118-120 (2006).
105. K. Koyabu, Y. Mayama, T. Masui, and N. Imanaka, "Synthesis of New Green Emitting Phosphors Based on Rare Earth Oxycarbonates," J. Alloys Compd., 418, 230-233 (2006).
106. Y. Mayama, K. Koyabu, T. Masui, S. Tamura, and N. Imanaka, "Synthesis of New Red Emitting Phosphors Based on Rare Earth Oxycarbonates," J. Alloys Compd., 418, 243-246 (2006).
107. S. Yamamoto, S. Tamura, and N. Imanaka, "New Type of Potassium Ion Conducting Solid Based on Lanthanum Oxysulfate," J. Alloys Compd., 418, 226-229 (2006).
108. S. Furukawa, T. Masui, and N. Imanaka, "Synthesis of New Environment-friendly Yellow Pigments," J. Alloys Compd., 418, 255-258 (2006).
109. T. Masui, K. Koyabu, S. Tamura, and N. Imanaka, "Synthesis of a New NASICON-type Blue Luminescent Material," J. Alloys Compd., 418, 73-76 (2006).
110. S. Isota, T. Masui, S. Tamura, and N. Imanaka, "Electrochemical Single Crystal Growth of Tb24O44 Microparticles," J. Alloys Compd., 418, 101-105 (2006).
111. N. Imanaka, I. Hasegawa, and S. Tamura, "Nitrogen Monoxide Gas Sensor Operable at as Low as 250℃," Sens. Lett., 4, 340-343 (2006).
112. S. Tamura, A. Mori, and N. Imanaka, "Li+ Ion Conducting Properties in (Gd, La)2O3-LiNO3-KNO3 Solid," Solid State Ionics, 177, 2727-2730 (2006).
113. T. Masui, S. Furukawa, and N. Imanaka, "Synthesis and Characterization of CeO2-ZrO2-Bi2O3 Solid Solutions for Environment-friendly Yellow Pigments," Chem. Lett., 35, 1032-1033 (2006).
114. T. Masui, K. Minami, K. Koyabu, and N. Imanaka, "Synthesis and Characterization of New Promoters Based on CeO2-ZrO2-Bi2O3 for Automotive Exhaust Catalysts," Catal. Today, 117, 187-192 (2006).
115. S. Tamura, A. Mori, and N. Imanaka, "Enhancement of Lithium Ion Conduction in the Cubic Rare Earth Oxide," Electrochem. Commun., 9, 245-248 (2007).
116. N. Imanaka, S. Tamura, and T. Itano, "Extraordinarily High Zr4+ Ion Conducting Solid," J. Am. Chem. Soc., 129, 5338-5339 (2007).
117. Y. Hasagawa, T. Hoshiyama, S. Tamura, and N. Imanaka, "New Trivalent Sc3+ Ion Conductor Based on NASICON Type Phosphate," J. New Mat. Electrochem. Syst., 10, 177-180 (2007).
118. N. Imanaka, T. Masui, K. Koyabu, K. Minami, and T. Egawa, "Significant Low-Temperature Redox Activity of Ce0.64Zr0.16Bi0.20O1.90 Supported on γ-Al2O3," Adv. Mater., 19, 1608-1611 (2007).
119. T. Masui, K. Koyabu, K. Minami, T. Egawa, and N. Imanaka, "Low-Temperature Redox Activity of Ce0.64Zr0.16Bi0.20O1.90/γ-Al2O3 and Ag/Ce0.64Zr0.16Bi0.20O1.90/γ-Al2O3 Catalysts," J. Phys. Chem. C, 111, 13892-13897 (2007).
120. S. Tamura and N. Imanaka, "Nitrogen Oxide Gas Sensor Based on Multivalent Ion-Conducting Solids," Sens. Mater., 19, 347-363 (2007).
121. N. Imanaka, T. Masui, and H. Masaki, "Direct Decomposition of Nitric Oxide over C-Type Cubic (Gd1-x-yYxBay)2O3-y Solid Solutions," Adv. Mater., 19, 3660-3663 (2007).
122. N. Imanaka, K. Ando, and S. Tamura, "An Extraordinarily High Ba2+ Conducting Solid," J. Mater. Chem., 17, 4230-4232 (2007).
123. N. Imanaka, T. Masui, A. Terada, and H. Imadzu, "Complete Oxidation of Ethylene at Temperatures below 100 ℃ over a Pt/Ce0.64Zr0.16Bi0.20O1.90/γ-Al2O3 Catalyst," Chem. Lett., 37, 42-43 (2008).
124. N. Imanaka, T. Masui, and S. Furukawa, "Novel Nontoxic and Environment-friendly Inorganic Yellow Pigments," Chem. Lett., 37, 104-105 (2008).
125. H. Masaki, T. Masui, and N. Imanaka, "Direct Decomposition of Nitric Oxide into Nitrogen and Oxygen over C-Type Cubic Y2O3-ZrO2 Solid Solutions," J. Alloys Compd., 451, 406-409 (2008).
126. S. Furukawa, T. Masui, and N. Imanaka, "New Environment-friendly Yellow Pigments Based on CeO2-ZrO2 Solid Solutions," J. Alloys Compd., 451, 640-643 (2008).
127. S. Isota, T. Masui, S. Tamura, and N. Imanaka, "Electrochemical Single Crystal Growth of Tb11O20," J. Alloys Compd., 451, 644-647 (2008).
128. Y. Mayama, T. Masui, K. Koyabu, and N. Imanaka, "Enhancement of the Luminescent Intensity of the Green Emitting Gd2O2CO3:Tb Phosphor," J. Alloys Compd., 451, 132-135 (2008).
129. T. Masui, S. Isota, S. Tamura, and N. Imanaka, "Electrochemical Single-Crystal Growth of Nonstoichiometric Terbium Oxide," Cryst. Growth Des., 8, 1035-1038 (2008).
130. S. Tamura, I. Hasegawa, and N. Imanaka, "Nitrogen Oxides Gas Sensor Based on Al3+ Ion Conducting Solid Electrolyte," Sens. Actuators B: Chem., 130, 46-51 (2008).
131. S. Tamura, S. Yamamoto, and N. Imanaka, "New Type of Trivalent Gadolinium Ion Conducting Solid Electrolyte," J. New Mat. Electrochem. Syst., 11, 1-4 (2008).
132. Y. Hasegawa, S. Tamura, M. Sato, and N. Imanaka, "High-Trivalent Rare Earth Ion Conduction in Solids Based on NASICON-Type Phosphate," Bull. Chem. Soc. Jpn., 81, 521-524 (2008).
133. T. Nagai, S. Tamura, and N. Imanaka, "A New Solid Electrolyte Type Ammonia Gas Sensor with Praseodymium Ammonium Sulfate Based Auxiliary Sensing Electrode," Sens. Lett., 6, 454-457 (2008).
134. Y. Inaba, T. Nagai, S. Tamura, and N. Imanaka, "Sulfur Dioxide Gas Sensor Based on Al3+ and O2- Ion Conducting Solids with Gadolinium Oxysulfate Based Auxiliary Sensing Electrode," Sens. Lett., 6, 458-461 (2008).
135. Y. Inaba, S. Tamura, and N. Imanaka, "New Type of Sulfur Dioxide Gas Sensor Based on Trivalent Al3+ Ion Conducting Solid Electrolyte," Solid State Ionics, 179, 1625-1627 (2008).
136. N. Imanaka, T. Masui, T. Egawa, and H. Imadzu, "Novel Catalysts for Low-Temperature Combustion of Diesel Particulate Matter," J. Mater. Chem., 19, 208-210 (2009).
137. N. Imanaka and T. Masui, "Advanced Materials for Environmental Catalysts," Chem. Rec., 9, 40-50 (2009).
138. N. Nunotani, S. Tamura, and N. Imanaka, "First Discovery of Tetravalent Ti4+ Ion Conduction in a Solid," Chem. Mater., 21, 579-581 (2009).
139. S. Tamura, T. Itano, N. Nunotani, and N. Imanaka, "Highly Zr4+ Ion-conducting Solid Electrolytes," Electrochem. Solid State Lett., 12, F5-F7 (2009).
140. N. Nunotani, S. Tamura, and N. Imanaka, "A Discovery of Tetravalent Ge4+ Ion Conduction in Solids," Chem. Lett., 38, 658-659 (2009).
141. S.W. Kim, T. Masui, and N. Imanaka, "Synthesis of Red-emitting Phosphors Based on Gadolinium Oxysulfate by a Flux Method," Electrochemistry, 77, 611-613 (2009).
142. S.W. Kim, T. Masui, H. Matsushita, and N. Imanaka, "Synthesis of New Green-emitting Phosphors Based on Zirconium Oxide Phosphate," Chem. Lett., 38, 1100-1101 (2009).
143. T. Masui, H. Imadzu, N. Matsuyama, and N. Imanaka, "Total Oxidation of Toluene on Pt/CeO2-ZrO2-Bi2O3/γ-Al2O3 Catalysts Prepared in the Presence of Polyvinyl Pyrrolidone," J. Hazard. Mater., 176, 1106-1109 (2010).
144. S. Tsujimoto, K. Mima, T. Masui, and N. Imanaka, "Direct Decomposition of NO on C-type Cubic Rare Earth Oxides Based on Y2O3," Chem. Lett., 39, 456-457 (2010).
145. S.W. Kim, K. Jyoko, T. Masui, and N. Imanaka, "Synthesis of Green-Emitting (La,Gd)OBr:Tb3+ Phosphors," Materials, 3, 2506-2515 (2010).
146. S.W. Kim, T. Masui, H. Matsushita, and N. Imanaka, "Enhancement in Photoluminescence of Gd2O2CO3:Tb3+ Submicron Particles by Introducing Yttrium into the Oxycarbonate Lattice," J. Electrochem. Soc., 157, J181-J185 (2010).
147. N. Imanaka and S. Tamura, "The Development of Novel Trivalent Ion Conducting Solids and Their Application for Gas Sensors," J. Electroceram., 24, 331-344 (2010).
148. T. Nagai, S. Tamura, and N. Imanaka, "Solid Electrolyte Type NH3 Gas Sensor Applicable in a Humid Atmosphere," Electrochemistry, 78, 126-128 (2010).
149. N. Nunotani, M. Sawada, S. Tamura, and N. Imanaka, "Enhancement of Hf4+ Ion Conductivity in a NASICON-type Solid," Bull. Chem. Soc. Jpn., 83, 415-418 (2010).
150. T. Nagai, S. Tamura, and N. Imanaka, "Solid Electrolyte Type Ammonia Gas Sensor Based on Trivalent Aluminum Ion Conducting Solids," Sens. Actuators B: Chem., 147, 735-740 (2010).
151. S.W. Kim, K. Jyoko, T. Masui, and N. Imanaka, "A New Type of Red-emitting (La,Ca)OCl: Eu3+ Phosphors," Chem. Lett., 39, 604-605 (2010).
152. S. Tamura, T. Higuchi, and N. Imanaka, "High Ag+ Ion Conduction in NASICON-Type Solids," Electrochem. Solid State Lett., 13, F13-F15 (2010).
153. K. Yasuda, M. Nobu, T. Masui, and N. Imanaka, "Complete Oxidation of Acetaldehyde on Pt/CeO2-ZrO2-Bi2O3 Catalysts," Mater. Res. Bull., 45, 1278-1282 (2010).
154. T. Nagai, S. Tamura, and N. Imanaka, "Thermal Decomposition Behavior of the Rare-earth Ammonium Sulfate R2(SO4)3・(NH4)2SO4," J. Solid State Chem., 183, 1504-1509 (2010).
155. G. Adachi, N. Imanaka, and S. Tamura, "Research Trends in Rare Earths: A Preliminary Analysis," J. Rare Earth, 28, 843-846 (2010).
156. H. Katayama, S. Tamura, and N. Imanaka, "New Bismuth Ion Conducting Solid Electrolyte," Solid State Ionics, 192, 134-136 (2011).
157. S. Tamura, T. Nishikawa, and N. Imanaka, "A New Type of Cesium-ion-conducting Solid," Chem. Lett., 40, 118-120 (2011).
158. K. Yasuda, T. Masui, T. Miyamoto, and N. Imanaka, "Catalytic Combustion of Methane over Pt and PdO-supported CeO2-ZrO2-Bi2O3/γ-Al2O3," J. Mater. Sci., 46, 4046-4052 (2011).
159. S.W. Kim, T. Masui, and N. Imanaka, "Synthesis of Green-emitting Phosphors Based on Lanthanum Oxysulfate by a Flux Method," J. Ceram. Process. Res., 12, s13-s16 (2011).
160. T. Masui, S.W. Kim, and N. Imanaka, "New Phosphors Based on Rare Earth Oxysulfates," J. Ceram. Process. Res., 12, s61-s65 (2011).
161. S.W. Kim, T. Masui, and N. Imanaka, "Synthesis of Red-emitting (Gd,Ca,Eu)2W2O9 Phosphors," Chem. Lett., 40, 498-500 (2011).
162. N. Imanaka and S. Tamura, "Development of Multivalent Ion Conducting Solid Electrolytes," Bull. Chem. Soc. Jpn., 84, 353-362 (2011).
163. Y. Uneme, S. Tamura, T. Kawato, and N. Imanaka, "Moderate Temperature Operative Sulfur Dioxide Gas Sensor Based on an Ag+ Ion Conducting Solid," Electrochem. Solid State Lett., 14, J38-J40 (2011).
164. T. Nagai, S. Tamura, and N. Imanaka, "Ammonia Gas Sensor Based on Trivalent Al3+ Cation Conducting Solid and Rare-earth Ammonium Sulfate," Sens. Lett., 9, 552-556 (2011).
165. T. Nagai, S. Tamura, and N. Imanaka, "Highly Water Durable NH3 Gas Sensor Based on Al3+ Ion Conducting Solid Electrolyte with NH4+-Gallate," Electrochemistry, 79, 450-452 (2011).
166. S. Tsujimoto, C. Nishimura, T. Masui, and N. Imanaka, "Coexisting Gas-resistant C-type Cubic Yb2O3-Tb4O7 Catalysts for Direct NO Decomposition," Chem. Lett., 40, 708-710 (2011).
167. Wendusu, K. Ikawa, T. Masui, and N. Imanaka, "Novel Environment-friendly Yellow Pigments Based on (Bi,La)VO4," Chem. Lett., 40, 792-794 (2011).
168. S. Tsujimoto, X. Wang, T. Masui, and N. Imanaka, "Direct Decomposition of NO into N2 and O2 on C-type Cubic Y2O3-ZrO2 and Y2O3-ZrO2-BaO," Bull. Chem. Soc. Jpn., 84, 807-811 (2011).
169. N. Imanaka, T. Masui, and K. Yasuda, "Environmental Catalysts for Complete Oxidation of Volatile Organic Compounds and Methane," Chem. Lett., 40, 780-785 (2011).
170. N. Imanaka, T. Masui, H. Imadzu, and K. Yasuda, "Carbon Monoxide Oxidation at Room Temperature on Pt/CeO2-ZrO2-Bi2O3 Catalysts," Chem. Commun., 47, 11032-11034 (2011).
171. T. Nagai, S. Tamura, and N. Imanaka, "Low Temperature Operable CO2 Gas Sensor Based on Trivalent Aluminum Ion Conducting Solid," Electrochem. Solid State Lett., 14, J81-J83 (2011).
172. K. Yasuda, T. Masui, and N. Imanaka, "Support Effect on the Complete Oxidation of Ethyl Acetate over Pt Catalysts," Funct. Mater. Lett., 4, 411-414 (2011).
173. T. Masui, A. Shiraishi, S. Furukawa, Wendusu, N. Nunotani, and N. Imanaka, "Novel Lead-free CeO2-ZrO2-Bi2O3 Yellow Pigments for Arita Ware," J. Jpn. Soc. Colour Mater., 85, 9-13 (2012).
174. K. Yasuda, A. Yoshimura, A. Katsuma, T. Masui, and N. Imanaka, "Low-temperature Complete Combustion of Volatile Organic Compounds over Novel Pt/CeO2-ZrO2-SnO2/γ-Al2O3 Catalysts," Bull. Chem. Soc. Jpn., 85, 522-526 (2012).
175. S.W. Kim, T. Masui, and N. Imanaka, "Enhancement of Photoluminescence in (Gd,Eu)2O(WO4)2 Phosphors by Lanthanum Doping into the Host Gd2O(WO4)2 Lattice," ECS J. Solid State Sci. Technol., 1, R41-R45 (2012).
176. N. Imanaka and T. Masui, "Advances in Direct NOx Decomposition Catalysts," Appl. Catal. A: Gen., 431-432, 1-8 (2012).
177. T. Nagai, S. Tamura, and N. Imanaka, "Development of Ammonia Gas Sensors Based on Trivalent Al3+ Cation Conducting Solid Electrolyte," Bull. Chem. Soc. Jpn., 85, 634-641 (2012).
178. N. Nunotani, T. Ohsaka, S. Tamura, and N. Imanaka, "Tetravalent Sn4+ Ion Conductor Based on NASICON-type Phosphate," ECS Electrochem. Lett., 1, A66-A69 (2012).
179. N. Nunotani, S. Tamura, and N. Imanaka, "Highly Tetravalent Hafnium Ion Conducting Solids with a NASICON-type Structure," Electrochemistry, 80, 743-745 (2012).
180. T. Masui, S. Uejima, S. Tsujimoto, and N. Imanaka, "Direct Decomposition of NO into N2 and O2 over C-type Cubic Y2O3-Tb4O7-ZrO2," Mater. Sci. Appl., 3, 733-738 (2012).
181. S.W. Kim, K. Jyoko, T. Masui, and N. Imanaka, "Green-emitting (La,M,Tb)OCl (M = Mg, Ca, and Sr) Phosphors," Opt. Mater., 35, 280-284 (2012).
182. Wendusu, T. Masui, and N. Imanaka, "Environmentally Friendly Inorganic Red Pigments Based on Bismuth Oxide," Chem. Lett., 41, 1616-1618 (2012).
183. Y. Uneme, S. Tamura, and N. Imanaka, "Moderate-temperature Operable SO2 Gas Sensor Based on Zr4+ Ion Conducting Solid Electrolyte," J. Sens. Sens. Syst., 1, 29-32 (2012).
184. Y. Uneme, S. Tamura, and N. Imanaka, "Sulfur Dioxide Gas sensor Based on Tetravalent Zr4+-conducting Solid Electrolyte," Chem. Lett., 42, 28-30 (2013).
185. Y. Uneme, S. Tamura, and N. Imanaka, "Sulfur Dioxide Gas Sensor Based on Zr4+ and O2- Ion Conducting Solid Electrolytes with Lanthanum Oxysulfate as an Auxiliary Sensing Electrode," Sens. Actuators B: Chem., 177, 529-534 (2013).
186. S.W. Kim, Y. Zuo, T. Masui, and N. Imanaka, "Novel Blue-emitting Phosphors Based on Hafnium Pyrophosphate," Mater. Lett., 95, 97-99 (2013).
187. A. Hosoya, S. Tamura, and N. Imanaka, "Low-temperature-operative Carbon Monoxide Gas Sensor with Novel CO Oxidizing Catalyst," Chem. Lett., 42, 441-443 (2013).
188. Wendusu, D. Kato, T. Masui, and N. Imanaka, "Novel Environmentally Friendly Inorganic Yellow Pigments Based on CeO2-SiO2-Al2O3-Bi2O3," Bull. Chem. Soc. Jpn., 86, 283-288 (2013).
189. M.Y. Kim, T. Kamata, T. Masui, and N. Imanaka, "Combustion of Toluene Catalyzed by Pt/Co3O4/CeO2-ZrO2-SnO2/γ-Al2O3," J. Mater. Sci. Res., 2, 51-59 (2013).
190. S. Tsujimoto, K. Yasuda, T. Masui, and N. Imanaka, "Effects of Tb and Ba Introduction on the Reaction Mechanism of Direct NO Decomposition over C-type Cubic Rare Earth Oxides Based on Y2O3," Catal. Sci. Technol., 3, 1928-1936 (2013).
191. S.W. Kim, Y. Zuo, T. Masui, and N. Imanaka, "Synthesis of Red-emitting Ca3-xEuxZrSi2O9 Phosphors," ECS Solid State Lett., 2, R34-R36 (2013).
192. T. Masui, T. Honda, Wendusu, and N. Imanaka, "Novel and Environmentally Friendly (Bi,Ca,Zn)VO4 Yellow Pigments," Dyes Pigm., 99, 636-641 (2013).
193. M.Y. Kim, T. Kamata, T. Masui, and N. Imanaka, "Complete Toluene Oxidation on Pt/CeO2-ZrO2-ZnO Catalysts," Catalysts, 3, 646-655 (2013).
194. Wendusu, A Hosoya, T. Masui, and N. Imanaka, "Novel Environmentally Friendly Inorganic Blue Pigments Based on Amorphous Tungsten Oxyphosphate," Chem. Lett., 42, 906-908 (2013).
195. N. Nunotani, S. Tamura, and N. Imanaka, "The First Combined Experimental and Theoretical Evaluation of Tetravalent Cation Conduction in a Solid," Eur. J. Inorg. Chem., 2013, 4300-4304 (2013).
196. S.W. Kim, T. Masui, and N. Imanaka, "Synthesis of Green-emitting (Gd,La,Tb)2O(WO4)2 Phosphors," Opt. Mater., 35, 2128-2131 (2013).
197. M.Y. Kim, T. Kamata, T. Masui, and N. Imanaka, "Complete Oxidation of Toluene on Co3O4/CeO2-ZrO2-SnO2 Catalysts," J. Asian Ceram. Soc., 1, 243-247 (2013).
198. Wendusu, T. Honda, T. Masui, and N. Imanaka, "Novel Environmentally Friendly Inorganic Blue Pigments Based on Calcium Scandium Silicate Garnet," Chem. Lett., 42, 1562-1564 (2013).
199. Wendusu, T. Honda, T. Masui, and N. Imanaka, "Novel Environmentally Friendly (Bi, Ca, Zn, La)VO4 Inorganic Yellow Pigments," RSC Advances, 3, 24941-24945 (2013).
200. S. Tsujimoto, C. Nishimura, T. Masui, and N. Imanaka, "Direct Decomposition of Nitrogen Monoxide on (Ho, Zr, Pr)2O3+δ Catalysts," Catal. Commun., 43, 84-87 (2014).
201. S. Tsujimoto, T. Masui, and N. Imanaka, "Direct Decomposition of Nitrogen Monoxide over C-type Cubic Y2O3-Pr6O11 Solid Solutions," RSC Advances, 4, 1146-1149 (2014).
202. Y. Zuo, S.W. Kim, T. Masui, and N. Imanaka, "Enhanced Luminescent Properties of Ca3-xTbxZrSi2O9+x/2 Phosphors by Al3+ Doping into the Zr4+ Site in the Host Lattice," J. Lumin., 148, 198-201 (2014).
203. M.Y. Kim, T. Masui, and N. Imanaka, "Complete Oxidation of Toluene on Refractory La1-xCaxCoO3-x/2/CeO2-ZrO2-ZnO Catalysts," Catal. Sci. Technol., 4, 321-324 (2014).
204. Y. Zuo, S.W. Kim, T. Masui, and N. Imanaka, "Influence of Al3+ Doping into the Zr4+ Site on the Photoluminescence Properties of Ca3-xEuxZrSi2O9+x/2 Phosphors," ECS J. Solid State Sci. Technol., 3, R79-R82 (2014).
205. Wendusu, T. Masui, and N. Imanaka, "Novel Environment-friendly Inorganic Red Pigments Based on (Bi, Er, Y, Fe)2O3 Solid Solutions," J. Asian Ceram. Soc., 2, 195-198 (2014).
206. A. Hosoya, S. Tamura, and N. Imanaka, "A Catalytic Combustion-type CO Gas Sensor Incorporating Aluminum Nitride as an Intermediate Heat Transfer Layer for Accelerated Response Time," J. Sens. Sens. Syst., 3, 141-144 (2014).
207. A. Hosoya, S. Tamura, and N. Imanaka, "Catalytic Combustion-type CO Sensor Applying Pt Loaded CeO2-ZrO2-ZnO Solid Solution," J. Ceram. Soc. Jpn., 122, 601-603 (2014).
208. T. Masui, R. Nagai, and N. Imanaka, "Effect of the Introduction of Oxide Ion Vacancies into Cubic Fluorite-type Rare Earth Oxides on the NO Decomposition Catalysis," J. Solid State Chem., 220, 181-184 (2014).
209. S. Tamura, Y. Okada, and N. Imanaka, "Divalent Sr2+ Cation Conducting Solid Electrolyte with NASICON-type Structure," Electrochemistry, 82, 830-832 (2014).
210. T. Masui, S. Uejima, S. Tsujimoto, R. Nagai, and N. Imanaka, "Direct NO Decomposition Over C-type Cubic Y2O3-Pr6O11-Eu2O3 Solid Solutions," Catal. Today, 242, 338-342 (2015).
211. T. Masui, N. Takeuchi, H. Nakado, and N. Imanaka, "Novel Environment-friendly Green Pigments Based on Rare Earth Cuprate," Dyes Pigm., 113, 336-340 (2015).
212. Wendusu, T. Yoshida, T. Masui, and N. Imanaka, "Novel Environmentally Friendly Inorganic Red Pigments Based on Calcium Bismuth Oxides," J. Adv. Ceram., 4, 39-45 (2015).
213. P.G. Choi, T. Ohno, N. Fukuhara, T. Masui, and N. Imanaka, "Catalytic Liquid Phase Oxidation of 1,4-dioxane over a Pt/CeO2-ZrO2-Bi2O3/SBA-16 Catalyst," J. Adv. Ceram., 4, 71-75 (2015).
214. N. Imanaka, T. Masui, and K. Jyoko, "Selective Liquid Phase Oxidation of Cyclohexane over Pt/CeO2-ZrO2-SnO2/SiO2 Catalysts with Molecular Oxygen," J. Adv. Ceram., 4, 111-117 (2015).
215. S. Tsujimoto, T. Masui, and N. Imanaka, "Fundamental Aspects of Rare Earth Oxides Affecting Direct NO Decomposition Catalysis," Eur. J. Inorg. Chem., 2015, 1524-1528 (2015).
216. A. Hosoya, S. Yasuhara, S. Tamura, and N. Imanaka, "Low Temperature-operative Hydrogen Gas Sensor Employing 10 wt% Pt/Ce0.68Zr0.17Sn0.15O2.0 Catalyst," Chem. Lett., 44, 437-439 (2015).
217. A. Hosoya, H. Taira, S. Tamura, and N. Imanaka, "Solid Electrolyte Type Carbon Monoxide Gas Sensor Combined with CO Oxidizing Catalyst," Sens. Lett., 13, 435-438 (2015).
218. T. Masui, T. Kamata, N. Fukuhara, and N. Imanaka, "Improvement of Toluene Oxidation Catalysis by Cu Doping into Co3O4 in Pt/Co3O4/CeO2-ZrO2-SnO2/γ-Al2O3 Catalysts," Bull. Chem. Soc. Jpn., 88, 746-751 (2015).
219. P.G. Choi, T. Ohno, T. Masui, and N. Imanaka, "Catalytic Liquid-phase Oxidation of Acetaldehyde to Acetic Acid over a Pt/CeO2-ZrO2-SnO2/γ-alumina Catalyst," J. Environ. Sci., 36, 63-66 (2015).
220. Wendusu, A. Shiraishi, N. Takeuchi, T. Masui, and N. Imanaka, "Novel Environment Friendly Inorganic Red Pigments Based on Bi4V2O11," RSC Advances, 5, 44886-44894 (2015).
221. T. Masui, A. Shiraishi, H. Nakado, N. Takeuchi, Wendusu, and N. Imanaka, "Novel Environment-friendly Green Pigments for Over-glazed Decoration of Arita Ware," J. Jpn. Soc. Colour Mater., 88, 203-207 (2015).
222. A. Hosoya, S. Tamura, and N. Imanaka, "A New Catalytic Combustion-type Carbon Monoxide Gas Sensor Employing Precious Metal-free CO Oxidizing Catalyst," ISIJ Int., 55, 1699-1701 (2015).
223. S. Tamura, M. Yamane, Y. Hoshino, and N. Imanaka, "Highly Conducting Divalent Mg2+ Cation Solid Electrolytes with Well-ordered Three-dimensional Network Structure," J. Solid State Chem., 235, 7-11 (2016).
224. Wendusu, Y. Asakawa, N. Nunotani, and N. Imanaka, "Red Emitting Phosphors Based on Titanite with High Thermal Stability," J. Asian Ceram. Soc., 4, 133-137 (2016).
225. M. Jeong, N. Nunotani, N. Moriyama, and N. Imanaka, "High Methane Combustion Activity of PdO/CeO2-ZrO2-NiO/γ-Al2O3 Catalysts," J. Asian Ceram. Soc., 4, 259-262 (2016).
226. A. Hosoya, S. Tamura, and N. Imanaka, "A Catalytic Combustion-type Carbon Monoxide Gas Sensor Incorporating an Apatite-type Oxide," ISIJ Int., 56, 1634-1637 (2016).
227. B.S. Bae, Wendusu, S. Tamura, and N. Imanaka, "Novel Environmentally Friendly Inorganic Yellow Pigments Based on Gehlenite-type Structure," Ceram. Int., 42, 15104-15106 (2016).
228. N. Nunotani, R. Nagai, and N. Imanaka, "Direct Catalytic Decomposition of Nitrous Oxide Gas over Rhodium Supported on Lanthanum Silicate," Catal. Commun., 87, 53-56 (2016).
229. S. Tamura, K. Araki, and N. Imanaka, "Trivalent Gallium Ion Conduction in NASICON-type Solid," J. Asian Ceram. Soc., 4, 390-393 (2016).
230. P.G. Choi, N. Nunotani, and N. Imanaka, "High Catalytic Efficiency in Liquid-Phase Oxidation of 1,4-Dioxane Using a Pt/CeO2-ZrO2-SnO2/SBA-16 Catalyst," Int. J. Appl. Ceram. Technol., 14, 9-15 (2017).
231. P.G. Choi, A. Kamijo, N. Nunotani, T. Nakano, and N. Imanaka, "Catalytic Liquid-phase Oxidation of Bisphenol-A under Moderate Condition Using CeO2-ZrO2-Bi2O3 Supported on SBA-16," Chem. Lett., 46, 257-259 (2017).
232. B.S. Bae, S. Tamura, and N. Imanaka, "Novel Environment-friendly Yellow Pigments Based on Praseodymium(III) Tungstate," Ceram. Int., 43, 7366-7368 (2017).
233. M. Jeong, N. Nunotani, N. Moriyama, and N. Imanaka, "Effect of Introducing Fe2O3 into CeO2-ZrO2 on Oxygen Release Properties and Catalytic Methane Combustion over PdO/CeO2-ZrO2-Fe2O3/γ-Al2O3 Catalysts," Catal. Sci. Technol., 7, 1986-1990 (2017).
234. A.R. Supandi, N. Nunotani, and N. Imanaka, "Liquid-phase Oxidation of Phenol in Facile Condition using Pt/CeO2-ZrO2-SnO2 Catalyst Supported on Mesoporous Silica SBA-16," J. Environ. Chem. Eng., 5, 3999-4003 (2017).
235. M. Jeong, N. Nunotani, N. Moriyama, and N. Imanaka, "Introduction of NiO in Pt/CeO2-ZrO2/γ-Al2O3 Catalysts for Removing Toluene in Indoor Air," Mater. Lett., 208, 43-45 (2017).
236. W.R. Lee, S. Tamura, and N. Imanaka, "New Calcium Ion Conducting Solid Electrolyte with NASICON-type Structure," Chem. Lett., 46, 1486-1489 (2017).
237. B.S. Bae, N. Takeuchi, S. Tamura, and N. Imanaka, "Environmentally Friendly Orange Pigments Based on Hexagonal Perovskite-type Compounds and Their High NIR Reflectivity," Dyes Pigm., 147, 523-528 (2017).
238. N. Nunotani, Y. Asakawa, M. Watanabe, and N. Imanaka, "Crystal Structure and Photoluminescent Property of Eu3+-doped K3GdSi2O7," J. Asian Ceram. Soc., 5, 377-380 (2017).
239. N. Nunotani, N. Moriyama, K. Matsuo, and N. Imanaka, "Catalytic Methane Combustion over Novel Catalyst Based on Oxide-ion-conducting Lanthanum Silicate," J. Ceram. Soc. Jpn., 125, 773-775 (2017).
240. N. Nunotani, N. Moriyama, K. Matsuo, and N. Imanaka, "Novel Catalysts for Methane Combustion Based on Cobalt-doped Lanthanum Silicates Having an Apatite-type Structure," ACS Appl. Mater. Interfaces, 9, 40344-40350 (2017).
241. M. Watanabe, H. Nakatani, S. Tamura, and N. Imanaka, "Catalytic Combustion-type C2H4 Gas Sensors Employing Pt-loaded CeO2-ZrO2-MOx Solid Solutions," Sens. Lett., 15, 1031-1034 (2017).
242. N. Imanaka, N. Nunotani, K. Araki, and M. Yamane, "Exact Identification of Migrating Ion Species in Scandium Tungstate Solid Electrolyte," J. Am. Ceram. Soc., 101, 1025-1028 (2018).
243. M. Jeong, N. Nunotani, and N. Imanaka, "Relationship Between the Conductivities of CeO2-ZrO2-MOx (M = Bi, Ca, Sn, Ni, Fe) Solid Solutions and Catalytic Activities During Methane Oxidation," Bull. Chem. Soc. Jpn., 91, 158-164 (2018).
244. K. Matsuo, N. Nunotani, and N. Imanaka, "Complete Oxidation of Formaldehyde over a Pt/CeO2-ZrO2-Bi2O3/SBA-16 Catalyst at Room Temperature," Chem. Lett., 47, 715-718 (2018).
245. H. Shirai, N. Akiyama, N. Nunotani, and N. Imanaka, "Novel Photocatalyst Based on Metastable ZrSnO4 Solid for Hydrogen and Oxygen Evolution," Chem. Lett., 47, 723-725 (2018).
246. C.M. Cho, Y. Watanabe, N. Nunotani, and N. Imanaka, "Direct Decomposition of Nitrous Oxide Using Yb2O3-Pr6O11 with C-type Cubic Structure," Chem. Lett., 47, 996-999 (2018).
247. P. Rodlamul, S. Tamura, and N. Imanaka, "Sensitivity Enhancement of Catalytic Combustion-type CO Gas Sensor Using an Artificial Diamond with Pt-loaded CeO2-ZrO2-ZnO Based Catalyst," J. Ceram. Soc. Jpn., 126, 750-754 (2018).
248. M.R.I.B. Misran, N. Nunotani, S. Tamura, and N. Imanaka, "Novel Br- ion Conducting Solid Electrolyte Based on LaOBr," J. Ceram. Soc. Jpn., 126, 761-765 (2018).
249. N. Nunotani, A.R. Supandi, P.G. Choi, and N. Imanaka, "Catalytic Liquid-phase Oxidation of Phenolic Compounds Using Ceria-Zirconia Based Catalysts," Front. Chem., 6, 553:1-6 (2018).
250. P.G. Choi, N. Nunotani, and N. Imanaka, "Efficient Production of Dihydroxyacetone from Glycerol over a Pt/CeO2-ZrO2-Bi2O3/SBA-16 Catalyst," J. Asian Ceram. Soc., 6, 368-373 (2018).
251. W.R. Lee, S. Yamauchi, S. Tamura, and N. Imanaka, "Divalent Ni2+ Cation Conduction in NASICON-type Solid," Mater. Lett., 234, 261-263 (2019).
252. P. Rodlamul, S. Tamura, and N. Imanaka, "Effect of p- or n-type Semiconductor on CO Sensing Performance of Catalytic Combustion-type CO Gas Sensor with CeO2-ZrO2-ZnO Based Catalyst," Bull. Chem. Soc. Jpn., 92, 585-591 (2019).
253. W.R. Lee, S. Tamura, and N. Imanaka, "Synthesis and Characterization of Divalent Ion Conductors with NASICON-type Structures," J. Asian Ceram. Soc., 7, 221-227 (2019).
254. C.M. Cho, N. Nunotani, and N. Imanaka, "Direct Decomposition of N2O over C-type Cubic Yb2O3-Co3O4 Catalysts," Bull. Chem. Soc. Jpn., 92, 1148-1153 (2019).
255. H. Shirai, N. Nunotani, and N. Imanaka, "Photocatalytic Hydrogen Evolution from Water over Hafnium Oxyphosphate," J. Ceram. Soc. Jpn., 127, 700-702 (2019).
256. K. Matsuo, N. Nunotani, and N. Imanaka, "Catalytic Toluene Combustion over Pt Loaded on Lanthanum Silicate with Apatite-type Structure," Funct. Mater. Lett., 12, 1950074:1-4 (2019).
257. C.M. Cho, N. Nunotani, and N. Imanaka, "Effect of Oxygen Vacancies on Direct N2O Decomposition over ZrO2-Y2O3 Catalysts," J. Asian Ceram. Soc., 7, 518-523 (2019).
258. N. Nunotani, M.R.I.B. Misran, M. Inada, T. Uchiyama, Y. Uchimoto, and N. Imanaka, "Structural Environment of Chloride Ion-Conducting Solids Based on Lanthanum Oxychloride," J. Am. Ceram. Soc., 103, 297-303 (2020).
259. N. Nunotani, S. Saeki, K. Matsuo, and N. Imanaka, "Novel Catalysts Based on Lanthanum Oxyfluoride for Toluene Combustion," Mater. Lett., 258, 126802:1-3 (2020).
260. A.R. Supandi, N. Nunotani, and N. Imanaka, "Effective p-Cresol Removal Through Catalytic Liquid-phase Oxidation Under Moderate Conditions Using Pt/CeO2-ZrO2-SnO2/SBA-16 as a Catalyst," J. Asian Ceram. Soc., 8, 116-122 (2020).
261. N. Nunotani, M. Takashima, P.G. Choi, Y.B. Choi, and N. Imanaka, "Selective Oxidation of Glycerol to Dihydroxyacetone Using CeO2-ZrO2-Bi2O3-SnO2-supported Platinum Catalysts," J. Asian Ceram. Soc., 8, 470-475 (2020).
262. H. Shirai, S. Tamura, A. Miura, and N. Imanaka, "Novel Environment-Friendly Blue Pigments Based on Ba(TiO)Cu4(PO4)4," J. Jpn. Soc. Colour Mater., 93, 214-218 (2020).
263. M. Momai, S. Tamura, S. Saeki, and N. Imanaka, "Crystal Phase Control and Ionic Conductivity of Magnesium ion-doped Lanthanum Oxyfluoride," J. Ceram. Soc. Jpn., 128, 863-865 (2020).
264. A.R. Supandi, N. Nunotani, and N. Imanaka, "Particle Size Effect of ZrO2 Supports on Catalytic Liquid-phase Oxidation of Phenol over Pt/CeO2-ZrO2-Bi2O3/ZrO2 Catalysts," J. Asian Ceram. Soc., 8, 745-752 (2020).
265. A.R. Supandi, N. Nunotani, and N. Imanaka, "Complete Phenol Removal in Liquid-phase under Moderate Condition over Pt/CeO2-ZrO2-SnO2/ZrO2/SBA-16 Catalysts," Funct. Mater. Lett., 13, 2050030:1-4 (2020).
266. M.R.I.B. Misran, N. Nunotani, S. Tamura, and N. Imanaka, "Enhancement of Bromide Ion Conductivity in Lanthanum Oxybromide Based Solids by Doping Divalent Zinc Ion with High Electronegativity," J. Asian Ceram. Soc., 8, 925-929 (2020).
267. Y.B. Choi, N. Nunotani, and N. Imanaka, "Glyceraldehyde Production from Glycerol over Pt/CeO2-ZrO2-Fe2O3/SBA-16 Catalysts Around Room Temperature in Open Air System," Mater. Lett., 278, 128392:1-4 (2020).
268. K. Matsuo, N. Nunotani, and N. Imanaka, "Noble-metal-free Catalysts Based on Apatite-type Lanthanum Silicate for Complete Toluene Combustion," Funct. Mater. Lett., 13, 2050035:1-4 (2020).
269. C.M. Cho, N. Nunotani, and N. Imanaka, "Direct N2O Decomposition over Yb2O3-CuO Catalysts with C-type Cubic Structure," Funct. Mater. Lett., 13, 2050040:1-4 (2020).
270. K. Shitara, A. Kuwabara, K. Hibino, K. Fujii, M. Yashima, J.R. Hester, M. Umeda, N. Nunotani, and N. Imanaka, "Ionic Conduction Mechanism in Ca-doped Lanthanum Oxychloride," Dalton Trans., 50, 151-156 (2021).
271. M.R.I.B. Misran, S. Tamura, N. Nunotani, and N. Imanaka, "Improvement of Bromide Ion Conduction in a Lanthanum Oxybromide-Based Solid by Adjusting the Electronegativity of the Cation Dopant," Mater. Lett., 286, 129211:1-4 (2021).
272. C.E. Özbilgin, K. Kobayashi, S. Tamura, N. Imanaka, and T.S. Suzuki, "Enhanced Ionic Conductivity of Aluminum Tungstate by Crystallographic Orientation in a Strong Magnetic Field," J. Am. Ceram. Soc., 104, 6364-6372 (2021).
273. N. Imanaka, M.R.I.B. Misran, and N. Nunotani, "Evidence for Enormous Iodide Anion Migration in Lanthanum Oxyiodide-based Solid," Sci. Adv., 7, eabh0812:1-4 (2021).
274. K. Matsuo, N. Nunotani, and N. Imanaka, "Effect of Oxide-ion Conductivity of Apatite-type Ln10Si6O27 on Catalytic Activity for Toluene Combustion," J. Asian Ceram. Soc., 9, 1466-1472 (2021).
275. T. Kimoto, M. Okuno, N. Nunotani, N. Imanaka, M. Fujiki, and Y. Imai, "Mirror Symmetric Green-Color Magnetic Circularly Polarized Luminescence from TbIII-containing Inorganics under North-up and South-up Faraday Geometries," Inorg. Chem. Commun., 134, 109034:1-4 (2021).
276. N. Nunotani, M. Taira, and N. Imanaka, "Phosphors of Rb3La1-xTbxSi2O7 with K3NdSi2O7-type Structure," J. Ceram. Soc. Jpn., 130, 44-48 (2022).
277. Y.B. Choi, N. Nunotani, K. Morita, and N. Imanaka, "Production of Hydroxypyruvic Acid by Glycerol Oxidation over Pt/CeO2-ZrO2-Bi2O3-PbO/SBA-16 Catalysts," Catalysts, 12, 69:1-8 (2022).
278. N. Nunotani, Z. Li, and N. Imanaka, "Novel Pt/La1-xBixOF/SBA-16 Catalysts for Liquid-phase Phenol Oxidation," Int. J. Appl. Ceram. Technol., 19, 746-752 (2022).
279. H. Shirai, S. Tamura, and N. Imanaka, "Novel Environmentally Friendly Blue Pigments Based on Li2Cu5(PO4)4," Ceram. Int., 48, 8729-8732 (2022).
280. Y.B. Choi, N. Nunotani, K. Morita, and N. Imanaka, "Selective Glycerol Oxidation to Glyceric Acid under Mild Conditions Using Pt/CeO2-ZrO2-Fe2O3/SBA-16 Catalysts," J. Asian Ceram. Soc., 10, 178-187 (2022).
281. K. Maeda, F. Takeiri, G. Kobayashi, S. Matsuishi, H. Ogino, S. Ida, T. Mori, Y. Uchimoto, S. Tanabe, T. Hasegawa, N. Imanaka, and H. Kageyama, "Recent Progress on Mixed-Anion Materials for Energy Applications," Bull. Chem. Soc. Jpn., 95, 26-37 (2022).
282. H. Shirai, S. Tamura, and N. Imanaka, "Novel Environmentally Friendly Blue Pigments Based on Na4Cu(PO4)2," Chem. Lett., 51, 360-363 (2022).
283. C.E. Özbilgin, K. Kobayashi, S. Tamura, N. Imanaka, and T.S. Suzuki, "Anisotropic Thermal Expansion and Ionic Conductivity of a Crystal-oriented, Mg2+-conducting NASICON-type Solid Electrolyte," Ceram. Int., 48, 10733-10740 (2022).
284. S. Tamura and N. Imanaka, "Solid Electrolyte-type Gas Sensors Applied Trivalent Cation Conducting Solid Electrolytes," Sens. Actuators B: Chem., 368, 132252 (2022).
285. N. Nunotani, K. Morita, and N. Imanaka, "Pt Supported on ZrSn1-xSrxO4-δ for Catalytic Liquid-phase Oxidation of Phenol," Funct. Mater. Lett., 15, 2250025:1-4 (2022).
286. M. Momai, S. Tamura, and N. Imanaka, "Fluoride Ion Conducting Behavior in Nonstoichiometric Lanthanum Oxyfluoride," Ceram. Int., 49, 1502-1506 (2023).
287. D.R. Hu, N. Nunotani, and N. Imanaka, "Novel Cobalt-doped ZrSnO4 Catalysts for Direct Nitrous Oxide Decomposition," Int. J. Appl. Ceram. Technol., 20, 966-971 (2023).
288. D.R. Hu, N. Nunotani, and N. Imanaka, "Direct Decomposition of Nitrous Oxide by Rhodium Supported on ZrSnO4," Funct. Mater. Lett., 16, 2350016:1-4 (2023).
289. N. Imanaka and N. Nunotani, "Environmental Catalysts Advance Focused on Lattice Oxygen for the Decomposition of Harmful Organic Compounds," Proc. Jpn. Acad. Ser. B: Phys. Biol. Sci., 99, 198-212 (2023).
290. N. Nunotani, M. Takashima, Y.B. Choi, Y. Uetake, H. Sakurai, and N. Imanaka, "Dihydroxyacetone Production by Glycerol Oxidation under Moderate Condition Using Pt Loaded on La1-xBixOF Solids," Chem. Commun., 59, 9533-9536 (2023).
291. N. Nunotani, K. Kakihana, and N. Imanaka, "Thermally Stable Apatite-type La10Si5CoO27-δ Catalyst for Toluene Combustion," Chem. Lett., 52, 771-774 (2023).
292. K. Shitara, A. Kuwabara, N. Nunotani, M.R.I.B. Misran, M. Inada, T. Uchiyama, Y. Uchimoto, and N. Imanaka, "Mechanisms of Point Defect Formation and Ionic Conduction in Divalent Cation-Doped Lanthanum Oxybromide: First-Principles and Experimental Study," Dalton Trans., 52, 14822-14829 (2023).
293. D.R. Hu, N. Nunotani, and N. Imanaka, "Direct Decomposition of N2O over Co3O4/ZrSn1-xFexO4-δ Catalysts," Funct. Mater. Lett., 16, 2350023:1-4 (2023).
294. M. Momai, S. Tamura, and N. Imanaka, "Crystal Structure and Fluoride Ion Conducting Behavior of Nonstoichiometric Rare-earth Oxyfluorides," J. Ceram. Soc. Jpn., 132, 55-57 (2024).
295. N. Nunotani, T. Tanaka, and N. Imanaka, "Catalytic Combustion of Toluene over Co3O4 Loaded on ZrSn1-xFexO4-δ," Bull. Chem. Soc. Jpn., 97, uoae084:1-7 (2024).
296. Y. Shimura, N. Imanaka, and S. Tamura, "Novel Environmentally Friendly Inorganic Yellow Pigments Based on SnNb2O6," J. Jpn. Soc. Colour Mater., 97, 324-328 (2024).
297. Y. Meng, N. Nunotani, K. Shitara, Y. Matsushita, N. Imanaka, K. Yamaura, and Y. Tsujimoto, "Rational Design of Chloride Ion Transport Channels in Open Borate Framework," J. Mater. Chem. A, 12, 27229-27234 (2024).
298. N. Nunotani, Y. Ogino, and N. Imanaka, "Methanation of Carbon Dioxide over Zirconium-Tin Oxide Based Catalyst," Funct. Mater. Lett., in press.
解説・総説等
1. 3価、4価イオン伝導体, 今中信人, 田村真治, 足立吟也, マテリアルインテグレーション, 14, 29-36 (2001).
2. 多価カチオンを伝導種とする新規な固体電解質, 今中信人, 田村真治, 足立吟也, Electrochemistry, 69, 802-805 (2001).
3. 新規固体電解質の開発と新しい概念に基づいた化学センサの構築, 今中信人, 化学センサ, 17, 49-55 (2001).
4. サンスクリーン〜紫外線から肌を守るために, 増井敏行, 今中信人, 化学, 57, 62-63 (2001).
5. 酸化セリウムをベースとする材料の合成, 増井敏行, 今中信人, マテリアルインテグレーション, 16, 13-18 (2002).
6. ケミカルファイリング法によるセリア・ジルコニア固溶体の表面改質と酸化還元挙動の解析, 増井敏行, 今中信人, マテリアルインテグレーション, 16, 29-33 (2003).
7. 希土類微粒子蛍光体の開発動向, 増井敏行, 今中信人, マテリアルインテグレーション, 17, 10-14 (2003).
8. 多価イオンを伝導種とする新しいイオン伝導性固体の創成とセンサデバイスへの応用, 今中信人, 電池技術, 16, 179-189 (2003).
9. CeO2-ZrO2-Bi2O3複合酸化物の開発と自動車排ガス浄化触媒としての利用, 須田栄作, 増井敏行, 今中信人, 化学と工業, 57, 948-950 (2004).
10. 固体電解質の設計と応用, 今中信人, ケミカルエンジニヤリング, 49, 947-953 (2004).
11. 無害化を目指した自動車排ガス浄化触媒の開発, 増井敏行, 今中信人, 化学, 60, 34-37 (2004).
12. 非化学量論ペロブスカイト型のプロトン伝導体, 田村真治, 今中信人, マテリアルインテグレーション, 18, 10-14 (2005).
13. 人と環境にやさしい顔料をめざして, 増井敏行, 今中信人, 梁宗範, 三原宗三, 化学, 61, 40-44 (2005).
14. 希土類イオンが伝導する固体電解質, 田村真治, 今中信人, マテリアルインテグレーション, 19, 2-7 (2006).
15. 未来を照らす希土類蛍光体, 戸田健司, 増井敏行, 今中信人, マテリアルインテグレーション, 19, 31-38 (2006).
16. 新しいタイプのリチウムイオン伝導体, 田村真治, 今中信人, 未来材料, 1, 24-29 (2006).
17. 新しいエチレン酸化触媒の開発, 増井敏行, 今中信人, 化学工業, 58, 534-538 (2007).
18. 総論〜セリウム系材料の新展開, 今中信人, 増井敏行, セラミックス, 42, 822-824 (2007).
19. セリウムの紫外線遮断材への応用, 増井敏行, 今中信人, セラミックス, 42, 851-855 (2007).
20. 総論〜ScとY, 今中信人, 増井敏行, マテリアルインテグレーション, 21, 1-2 (2007).
21. Sc3+, Y3+を伝導種とするイオン伝導体, 田村真治, 今中信人, マテリアルインテグレーション, 21, 50-55 (2008).
22. イオンの世界に魅せられて, 今中信人, 東海化学工業会会報, 257, 4-7 (2008).
23. 3価イオン伝導性固体を用いたガスセンサ, 田村真治, 今中信人, マテリアルインテグレーション, 21, 51-57 (2008).
24. 固体電解質を利用した環境モニタリング用ガスセンサの開発, 田村真治, 今中信人, OHM, 10, 4-5 (2008).
25. 揮発性有機化合物を触媒で分解する!, 今中信人, 化学, 64, 28-30 (2008).
26. VOC浄化触媒, 増井敏行, 今中信人, マテリアルインテグレーション, 22, 2-7 (2009).
27. 揮発性有機化合物を分解せよ!, 増井敏行, 今中信人, 化学, 64, 39-43 (2009).
28. 一酸化炭素の完全燃焼を常温で実現!, 増井敏行, 今中信人, 高圧ガス, 476, 40-41 (2009).
29. 地球環境保全を目指した新しい無機材料の創成, 今中信人, 生産と技術, 61, 35-38 (2010).
30. Ce, Pr, Tbの特徴, 増井敏行, 今中信人, マテリアルインテグレーション, 23, 1-4 (2010).
31. 4価イオンを伝導種とする固体電解質, 布谷直義, 田村真治, 今中信人, マテリアルインテグレーション, 24, 44-50 (2011).
32. 硫酸イオンを含む検出補助極を用いた新しいタイプのアンモニアガスセンサ, 永井つかさ, 田村真治, 今中信人, 硫酸と工業, 64, 35-44 (2011).
33. 希土類酸化物を母体とした新しい環境浄化触媒, 増井敏行, 安田佳祐, 今中信人, セラミックス, 46, 8-11 (2011).
34. 室温で一酸化炭素を完全に浄化?!, 安田佳祐, 増井敏行, 今中信人, 化学, 66, 70-71 (2011).
35. 溶融炭酸塩をフラックスとする希土類オキシ炭酸塩の合成と新しい蛍光体の創製, 増井敏行, 今中信人, Electrochemistry, 79, 902-906 (2011).
36. 固体電解質:イオンが電気を運ぶ固体, 田村真治, 今中信人, 化学と教育, 59, 376-377 (2011).
37. 優環境型酸化物顔料の現状, 増井敏行, 温都蘇, 今中信人, J. Jpn. Soc. Colour Mater. (色材), 84, 439-443 (2011).
38. 通すだけで窒素酸化物を浄化できる新しい触媒, 辻本総一郎, 増井敏行, 今中信人, マテリアルインテグレーション, 24, 29-36 (2012).
39. 新規な(Gd,Ca,Eu)2O(WO4)2系赤色蛍光体, 金善旭, 増井敏行, 今中信人, マテリアルインテグレーション, 25, 35-38 (2012).
40. 多価イオン伝導体の開発とセンサへの応用, 今中信人, 田村真治, 化学と工業, 65, 390-392 (2012).
41. 揮発性有機化合物であるトルエンを完全浄化する新しい酸化触媒, 増井敏行, 今中信人, 化学と工業, 64, 729-734 (2013).
42. 熱に極めて強く貴金属を全く含まない新しい酸化物触媒, 増井敏行, 今中信人, ファインケミカル, 42, 5-9 (2013).
43. CeO2-ZrO2-Bi2O3及びCeO2-ZrO2-SnO2系の新規環境触媒:フルオライトの観点から, 増井敏行, 今中信人, マテリアルインテグレーション, 26, 20-25 (2013).
44. 新規触媒を用いた低温作動型一酸化炭素センサ, 田村真治, 今中信人, 生産と技術, 69, 95-97 (2017).
45. 固体内セラミックス中における高価数カチオン伝導の実現, 田村真治, 今中信人, セラミックス, 54, 273-276 (2019).
46. 希土類酸化物による窒素酸化物の直接分解, 今中信人, 布谷直義, 触媒技術の動向と展望2019, 触媒学会, pp.17-23 (2019).
47. 新しい希土類酸化物触媒によるNOの直接分解, 今中信人, 布谷直義, 化学工業, 70(7), 6-10 (2019).
48. 優環境型の新規酸化物系無機顔料, 田村真治, 今中信人, 色材協会誌, 92, 64-68 (2019).
49. 液相中の有害有機化合物分解のための固体触媒, 今中信人, 布谷直義, 触媒, 6, 163-166 (2020).
50. 低温で有害ガスを酸化分解できる触媒の設計と開発, 今中信人, 布谷直義, C & I Commun, 45(2), 13-15 (2020).
51. 新規なK3NdSi2O7型蛍光体の設計と創製, 布谷直義, 今中信人, セラミックス, 55(12), 863-866 (2020).
52. 臭化物イオン伝導性固体, 今中信人, 布谷直義, セラミックス, 56(9), 603-606 (2021).
53. 低温作動可能な接触燃焼式一酸化炭素ガスセンサ, 田村真治, 今中信人, BUNSEKI KAGAKU, 70(6), 327-334 (2021).
54. セリウム-ジルコニウム複合酸化物系触媒による液相中のフェノール類の分解, 布谷直義, 今中信人, 大阪大学超高圧電子顕微鏡センター年報, 50, 44-47 (2021).
55. 電気化学会化学センサ研究会-持続可能な環境のグローバルな実現を目指して, 今中信人, 化学, 77(7), 50-51 (2022).
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