{"id":15,"date":"2020-03-13T15:36:02","date_gmt":"2020-03-13T06:36:02","guid":{"rendered":"http:\/\/wps.itc.kansai-u.ac.jp\/npe\/?page_id=15"},"modified":"2020-08-28T13:46:04","modified_gmt":"2020-08-28T04:46:04","slug":"performance","status":"publish","type":"page","link":"https:\/\/wps.itc.kansai-u.ac.jp\/npe\/performance\/","title":{"rendered":"\u7814\u7a76\u696d\u7e3e"},"content":{"rendered":"\n
  1. OKADA, Y., MIYAZAKI, S. OTSUKI, T. and KUDOH, S.: \u201cAerosol Spectrometer for Measuring Diameters and Chemical Compositions of Particulate Organic Matter: II. Lower Detection Limit\u201d, J. Aerosol Research, 29, 272-277 (2014).<\/li>
  2. OKADA, Y., OSHIO, N. and KUDOH, S.: \u201cFragmentation of Nanoparticle Agglomerates by Collisions\u201d, J. Chem. Eng. Japan, 47, 864-868 (2014).<\/li>
  3. OKADA, Y., TANIGUCHI, T. and KUDOH, S.: \u201cFormation of Non-Aggregated Nickel Nanoparticles in a Tubular Furnace Reactor\u201d, J. Chem. Eng. Japan, 47, 382-385 (2014).<\/li>
  4. OKADA, Y., KANDA, S. and KAMON, Y.: \u201cDegradation of Methylene Blue in Water by Collapse of Air Microbubbles\u201d, Sci. Technol. Reports of Kansai Univ., 56, 49-55 (2014).<\/li>
  5. OKADA, Y., OSHIO, N., ODA, K. and KUDOH, S.: \u201cFragmentation of Nanoparticle Agglomerates by Collisions in Supersonic Flows\u201d, J. Chem. Eng. Japan, 46, 530-534 (2013).<\/li>
  6. OKADA, Y., KAWABATA, T. and KUDOH, S.: \u201cAerosol Spectrometer for Measuring Diameters and Chemical Compositions of Particulate Organic Matter Using a GC-MS Equipped with an Adsorption-Thermal Desorption Tube\u201d, J. Aerosol Research, 27, 306-310 (2012).<\/li>
  7. OKADA, Y., NITTA, K., TANAKA T. and KUDOH, S.: \u201cMeasurement of Concentration of Reaction Intermediate in Microreactors Using a Raman Microscope Spectrometer\u201d, J. Chem. Eng. Japan, 45, 539-543 (2012).<\/li>
  8. OKADA, Y., NISHIUMI, K., UENO, S., KAWABATA, T. and KUDOH, S.: \u201cAccuracy of Nanoparticle Diameters Measured with a Differential Mobility Analyzer in Free-Molecule Regime\u201d, J. Aerosol Research, 26, 242-246 (2011).<\/li>
  9. OKADA, Y., KAWAMURA, H. and OZAKI, H.: \u201cFormation of Non-Agglomerated Titania Nanoparticles in a Flame Reactor\u201d, J. Chem. Eng. Japan, 44, 7-13 (2011).<\/li>
  10. OKADA, Y., KIDA, T., KAWASAKI, A., KAWASAKI, H. and ARAKAWA, R.: \u201cAerosol Spectrometer for On-line Measuring Diameters and Chemical Compositions of Volatile Organic Nanoparticles\u201d, J. Aerosol Research, 25, 344-348 (2010).<\/li>
  11. \u5ca1\u7530\u82b3\u6a39, \u4e43\u6751\u3000\u8a93, \u7530\u4e2d\u8c9e\u6b21\u90ce, \u65b0\u591a\u4e00\u6bc5:\u201d\u30de\u30a4\u30af\u30ed\u30ea\u30a2\u30af\u30bf\u30fc\u5185\u306e\u7269\u8cea\u79fb\u52d5\u8a08\u6e2c\u306b\u95a2\u3059\u308b\u7814\u7a76\u201d, \u5316\u5b66\u5de5\u5b66\u8ad6\u6587\u96c6, \u5316\u5b66\u5de5\u5b66\u8ad6\u6587\u96c6, 35, 633-638 (2009).<\/li>
  12. KAWACHI, M., OKADA, Y., NISHIUMI, K. and IMANAKA, M.: \u201cElectrical Mobilities of C60 Negative Ions in Noble Gases\u201d, Jpn. J Appl. Phys., 47, 5684-5686 (2008).<\/li>
  13. OKADA, Y., HARA, Y. and KAWABATA, K.: \u201cThe Rate of Vapor Condensation on Clusters in Ion-induced Water Cluster Formation\u201d, Earozoru Kenkyu, 22, 327-331 (2007).<\/li>
  14. OKADA, Y. and HARA, Y.: \u201cCalculation of the Sticking Probability of a Water Molecule to a Water Cluster\u201d, Earozoru Kenkyu, 22, 147-151 (2007).<\/li>
  15. IMANAKA, M., OKADA, Y., EHARA, K. and TAKEUCHI, K.: \u201cSize Measurements of Gasborne Poly(amidoamine) (PAMAM) Dendrimers Using a Differential Mobility Analyzer (DMA)\u201d, J. Aerosol Science, 37, 1643-1648 (2006).<\/li>
  16. IMANAKA, M., YOSHIZAWA, A., KUDOH, S., NAKATA, M., OKADA, Y. and TAKEUCHI, K.: \u201cDifferential Mobility Analysis of a C60 Negative Ion in He, Ne and Ar\u201d, Jpn. J Appl. Phys., 45, 7243-7245 (2006).<\/li>
  17. KAWAI, Y., OKADA, Y., YAMAGUCHI, S., TAKEUCHI, K., YAMAUCHI and NAKAI, H.: \u201cIsotope Effects in the Reaction of H+(H2O)2\/D+(D2O)2 with Acetone\/dimethylsulfoxide\u201d, J. Mass Spectrom. Socie. Jpn., 53, 305-308 (2005).<\/li>
  18. TAKEUCHI, K., YABUMOTO, J., OKADA, Y., KAWAI, T., MONTAJIR, R.M. and GOTO, Y.: \u201cA New Dual-Type DMA for Measuring Nanoparticles Emitted from Combustion Engines\u201d, J. Nanoparticle Res., 7, 287-293 (2005).<\/li>
  19. YAMAUCHI, Y., NAKAI, H. and OKADA, Y.: \u201cShort-time Fourier Transform Analysis of ab initio Molecular Dynamics Simulation: Collision Reaction between NH4+(NH3)2 and NH3\u201d, J. Chem. Phys., 121, 11098-11103 (2004).<\/li>
  20. ORII, T., OKADA, Y., TAKEUCHI, K., ICHIHASHI M. and KONDOW T.: “Collision Energy Transfer in the incorporation of ND3 into NH4+(NH3)n-1 (n=3-9)”, J. Chem. Phys., 121, 9406-9416 (2004).<\/li>
  21. MIURA, I., OKADA, Y., KUDOH, S. and NAKATA, M.: \u201cOrganic Electroluminescence in Porous Alumina\u201d, Jpn. J. Appl. Phys., 43, 7552-7553 (2004).<\/li>
  22. KAWAI, Y., YAMAGUCHI, S., OKADA, Y. and TAKEUCHI, K.: \u201cReactions of Protonated Water Clusters H+(H2O)n (n=2 and 4) with Acetonitrile, Dimethyl Sulfide, and Pyridine in a Guided Ion Beam Apparatus\u201d, J. Mass Spectrom. Socie. Jpn., 52, 271-276 (2004).<\/li>
  23. KAWAI, Y., OKADA, Y., ORII, T., TAKEUCHI, K. and YAMAGUCHI, S.: \u201cSelenium Cluster Formation Using a New Corona Discharge-assisted Cluster Ion Source\u201d, Rev. Sci. Instrum., 75, 1904-1906 (2004).<\/li>
  24. KAWAI, Y., OKADA, Y., TAKEUCHI, K. and YAMAGUCHI, S.: \u201cOptimization of Electron Impact Cluster Ion Source for Ammonia Cluster Generation\u201d, J. Mass Spectrom. Socie. Jpn., 51, 563-565 (2003).<\/li>
  25. YAMAGUCHI, S., KUDOH, S., OKADA, Y., ORII, T., TAKEUCHI, K., ICHIKAWA, T. and NAKAI, H.: \u201cSize-dependent Reaction Cross Section of Protonated Water Clusters H+(H2O)n (n=2-11) with D2O\u201d, J. Phys. Chem. A, 107, 10904-10910 (2003).<\/li>
  26. YAMAGUCHI, S., KUDOH, S., KAWAI, Y., OKADA, Y., ORII, T. and TAKEUCHI, K.: \u201cCollisional Reaction of Water Cluster Cations (H2O)n+ (n=2 and 3) with D2O\u201d, Chem Phys. Lett., 377, 37-42 (2003).<\/li>
  27. OKADA, Y., YAMAGUCHI, S., KAWAI, Y., ORII, T. and TAKEUCHI, K.: \u201cIncorporation Probability of a Water Molecule into a Water Cluster\u201d, Chem. Phys., 294, 37-43 (2003).?<\/li>
  28. KAWAI, Y., YAMAGUCHI, S., OKADA, Y., TAKEUCHI, K., YAMAUCHI, Y., OZAWA, S. and NAKAI, H.: \u201cReactions of Protonated Water Clusters H+(H2O)n (n=2-6) with Dimethylsulfoxide in a Guided Ion Beam Apparatus\u201d, Chem. Phys. Lett., 377, 69-73 (2003).<\/li>
  29. OKADA, Y., YAMAGUCHI, S. and TAKEUCHI, K.: \u201cCalculation of Molecule-Cluster Collision Cross Sections\u201d, J. Aerosol Research, Japan, 18, 47-52 (2003).<\/li>
  30. NAKAI, H., YAMAUCHI, Y., MATSUDA, A., OKADA, Y. and TAKEUCHI, K.: \u201cAb initio MD Simulation of Collision Reaction between Ammonia Cluster Ion and Ammonia Monomer\u201d, J. Mol. Structure (Theochem), 592, 61-67 (2002).<\/li>
  31. KAWAI, Y., YAMAGUCHI, S., OKADA, Y. and TAKEUCHI, K.: \u201cReactions of Size-selected Protonated Water Clusters H(H2O)n+ (n=2-6) with an Acetone Molecule in a Guided Ion Beam Apparatus\u201d, Int. J. Mass Spectrom. Ion Processes, 220, 375-383 (2002).<\/li>
  32. YAMAGUCHI, S., KUDOH, S., OKADA, Y., ORII, T. and TAKEUCHI, K.: \u201cCluster Size Dependence of the H\/D Exchange Reaction Rate Constant for Protonated Water Clusters H+(H2O)n (n=2-11)\u201d, Chem. Phys. Lett., 359, 480-485 (2002).<\/li>
  33. OKADA, Y., NAKAI, H., ICHIKAWA, T., ORII, T. and TAKEUCHI, K.: \u201cThe Stability of Ammonia Cluster ions and its Relation to Nucleation Rate\u201d, J. Aerosol Research, Japan, 17, 30-38 (2002).<\/li>
  34. OKADA, Y., YABUMOTO, J. and TAKEUCHI, K.: \u201cAerosol Spectrometer for Size and Composition Analysis of Nanoparticles\u201d, J. Aerosol Science, 33, 961-965 (2002).<\/li>
  35. SEOL, K.S., TSUTATANI, Y., FUJIMOTO, T., OKADA, Y., TAKEUCHI, K. and NAGAMOTO, H.: \u201cNew in situ Measurement Method for Nanoparticles Formed in a Radio Frequency Plasma-enhanced Chemical Vapor Deposition Reactor\u201d, J. Vac. Sci. Technol. B, 19, 1998-2000 (2001).?<\/li>
  36. OKADA, Y., YAMAGUCHI, S. and TAKEUCHI, K.: “Growth of van der Waals Clusters in Steady Supersonic Laval Nozzle Flow: Change in Number Density of SF6 Monomers Undergoing Clustering”, Appl. Phys. B, 72, 507-513 (2001).<\/li>
  37. NAKAI, H., GOTO, T., OKADA, Y., ORII, T., and TAKEUCHI, K.: “Theoretical Study on Ammonia Cluster Ions: Nature of Thermodynamic Magic Number”, Chem. Phys., 262, 201-210 (2000).<\/li>
  38. ORII, T., OKADA, Y., TAKEUCHI, K., ICHIHASHI, M. and KONDOW, T.: “Reaction Cross Section for Incorporation of ND3 into NH4+(NH3)n-1 (n=3-9) at Very Low Energy Collision”, J. Chem. Phys., 113, 8026-8035 (2000).<\/li>
  39. SEOL, K.S., TSUTATANI, Y., CAMATA, R.P., YABUMOTO, J., ISOMURA, S., OKADA, Y., OKUYAMA, K. and TAKEUCHI, K.: \u201cA Differential Mobility Analyzer and a Faraday Cup Electrometer for Operation at 200-930 Pa Pressure\u201d, J. Aerosol Sci., 31, 1389-1395 (2000).<\/li>
  40. NAKAI, H., GOTO, T., OKADA, Y., ORII, T., TAKEUCHI, K., ICHIHASHI M. and KONDOW T.: “Theoretical Study on Ammonia Cluster Ions: Nature of Kinetic Magic Number”, J. Chem. Phys., 112, 7409-7415 (2000).<\/li>
  41. OKADA, Y., ASHIMINE, K. and TAKEUCHI, K.: “Onset of Clustering of SF6 in Steady Supersonic Laval Nozzle Flow”, Appl. Phys. B, 70, 117-121 (2000).<\/li>
  42. SEOL, K.S., OKADA, Y., OKUYAMA, K., and TAKEUCHI, K.: \u201cA DMA for Measurement of Nanometer-sized Particles Formed at Very-low Pressure\u201d, J. Aerosol Sci., 31, Suppl. 2, S638-S639 (2000).<\/li>
  43. ORII, T., OKADA, Y., TAKEUCHI, K., ICHIHASHI M. and KONDOW T.: “Experimental Study on Growth Rate of Clusters in Ion-Induced Nucleation\u201d, J. Aerosol Sci., 30, Suppl. 1, S37-S38 (1999).<\/li>
  44. BEU, T. A., OKADA, Y. and TAKEUCHI, K.: “Calculations of Structures and Vibrational Spectra of Homogeneous and Mixed SF6 Clusters with Ar”, Euro. Phys. J. D, 6, 99-108 (1999).?<\/li>
  45. OKADA, Y., ASHIMINE, K., TAKEUCHI, K. and NAGAMOTO, H.: “Measurement of Onset of Clustering in Steady Supersonic Laval Nozzle Flow by FT-IR Spectroscopy”, J. Aerosol Sci., 29, Suppl. 1, S45-S46 (1998).<\/li>
  46. OKADA, Y., ISOMURA, S., ASHIMINE, K. and TAKEUCHI, K.: “Condensation of Uranium Hexafluoride in Supersonic Laval Nozzle Flow”, Appl. Phys. B, 67, 247-251 (1998).<\/li>
  47. OKADA, Y., SUNOUCHI, K., RYU, H., PATRA, A., ASHIMINE, K. and TAKEUCHI, K.: “Measurement of Condensation Onset in Steady Supersonic Laval Nozzle Flow for the Molecular Laser Isotope Separation Process”, J. Nucl. Sci. Technol., 35, 158-162 (1998).?<\/li>
  48. TAKEUCHI, K., KUGA, Y., OKADA, Y. and ONOE, J.: “A Critical Comment on the Previous Models for F-Atom Transfer Reaction from UF6 to UF5”, J. Nucl. Sci. Technol., 34, 1110-1111 (1997).<\/li>
  49. TANIMURA, S., OKADA, Y. and TAKEUCHI, K.: “Fourier Transform Infrared Spectroscopy of UF6 Clustering in a Supersonic Laval Nozzle: Cluster Configurations in Supercooled and Near-Equilibrium States”, J. Chem. Phys., 107, 7096-7105 (1997).<\/li>
  50. OKADA, Y., TANIMURA, S. and TAKEUCHI, K.: “Cluster Formation in Steady Supersonic Laval Nozzle Flow”, J. Aerosol Sci., 28, Suppl. 1, S491-S492 (1997).<\/li>
  51. OKADA, Y. and TAKEUCHI, K.: “Infrared Laser Isotope Separation of Silicon with Molecular Beam of Hexafluorodisilane”, J. Nucl. Sci. Technol., 34, 413-415 (1997).<\/li>
  52. OKADA, Y., TANIMURA, S., OKAMURA, H., SUDA, A., TASHIRO, H. and TAKEUCHI, K.: “Vibrational Spectroscopy and Predissociation of UF6 Clusters in Supersonic Laval Nozzle”, J. Mol. Structure., 410-411, 299-304 (1997).<\/li>
  53. OKADA, Y., ISOMURA, S. and TAKEUCHI, K.: “Cam-driven Pulsed Laval Nozzle with a Large Optical Path Length of 50 cm”, Rev. Sci. Instrum., 67, 3070-3072 (1996).<\/li>
  54. OKADA, Y., OKAMURA, H., ONOE, J., SUDA, A., TASHIRO, H. and TAKEUCHI, K.: “Vibrational Predissociation of UF6 Clusters in Supersonic Laval Nozzle”, Appl. Phys. B, 63, 57-61 (1996).<\/li>
  55. OKADA, Y., KATO, S., SATOOKA, S. and TAKEUCHI, K.: “Measurements of 235U\/238U Isotopic Ratio in Photoproduct UF5 by Multiphoton Ionization and Time-of-Flight Mass Spectrometry”, Appl. Phys. B, 62, 515-519 (1996).<\/li>
  56. TANIMURA, S., OKADA, Y. and TAKEUCHI, K.: “FTIR Spectroscopy of UF6 Clustering in a Supersonic Laval Nozzle”, J. Phys. Chem., 100, 2842-2848 (1996).<\/li>
  57. OKADA, Y. and TAKEUCHI, K.: “A Method for Evaluation of Energy Unit in Infrared Laser Isotope Separation”, The Rev. Laser Eng., 24, 278-292 (1996).<\/li>
  58. OKADA, Y., KATO, S., SUNOUCHI, K., SATOOKA, S., TASHIRO, H. and TAKEUCHI, K.: “Contrast Ratio and Separation Factor in Multiphoton Dissociation of Supercooled UF6 Irradiated with Multifrequency 16 mm Raman Laser Radiation”, Appl. Phys. B, 62, 77-81 (1996).<\/li>
  59. OKADA, Y., KATO, S., SATOOKA, S., TASHIRO, H. and TAKEUCHI, K.: “An Apparatus for Isotopic Ratio Measurement in UF5 Formed by Infrared Multiphoton Dissociation of UF6 in Molecular Beam”, J. Nucl. Sci. Technol., 32, 1174-1180 (1995).<\/li>
  60. TANIMURA, S., OKADA, Y. and TAKEUCHI, K.: “The Hamiltonian of the Induction Effect on Infrared Spectra of SF6 Clusters”, Chem. Phys. Lett., 241, 62-66 (1995).<\/li>
  61. KATO, S., SATOOKA, S., ARATANI, M., OKADA, Y. and TAKEUCHI, K.: “Laser Production of UF5 Fine Particles from UF6 for Analysis of Uranium Isotopic Ratio by a-Spectrometry”, RADIOISOTOPES, 44, 373-378 (1995).<\/li>
  62. TANIMURA, S., OKADA, Y., KUGA, Y. and TAKEUCHI, K.: “Determination of Rotational Temperature of UF6 and Pressure in Supersonic Expansion by Use of Q-branch under the Influence of Pressure Broadening”, Chem. Phys. Lett., 232, 176-180 (1995).<\/li>
  63. OKADA, Y., KUGA, Y., SUNOUCHI, K., SATOOKA, S., ISOMURA, S., SUDA, A., TSUNEMI, A., TASHIRO, H. and TAKEUCHI, K.: “Cross Section of Supercooled 238UF6 in Multiphoton Absorption Induced by 16 Micrometer Raman-Laser Radiation”, Appl. Phys. B, 59, 475-477 (1994).<\/li>
  64. DENG, H.T., OKADA, Y., FOLTIN, M. and CASTLEMAN, A.W.: “Gas Phase Antimony\/Magnesium\/Oxygen Clusters”, J. Phys. Chem., 98, 9350-9353 (1994).<\/li>
  65. OKADA, Y., ISOMURA, S., SATOOKA, S. and TAKEUCHI, K.: “Pulsed Laval Nozzle with The Large Optical Path Length of 50 cm”, Rev. Sci. Instrum., 65, 2414-2415 (1994).<\/li>
  66. OKADA, Y., SUNOUCHI, K., KATO, S., TASHIRO, H. and TAKEUCHI, K.: “Modeling of Multifrequency Infrared Multiphoton Dissociation for Laser Isotope Separation”, J. Chem. Eng. Japan, 27, 222-227 (1994).<\/li>
  67. OKADA, Y., SUNOUCHI, K., KATO, S., SATOOKA, S., TASHIRO, H. and TAKEUCHI, K.: “Determination Method of Dissociation Yield from HF Fluorescence in Infrared Multiphoton Dissociation of Supercooled UF6”, J. Nucl. Sci. Technol., 31, 130-135 (1994).<\/li>
  68. OKADA, Y., TASHIRO, H. and TAKEUCHI, K.: “Multiphoton Absorption of 16mm Raman Laser Radiation in 238UF6”, J. Nucl. Sci. Technol., 30, 762-767 (1993).<\/li>
  69. OKADA, Y., TAKEUCHI, K., YAMANASHI, H. and USHIJIMA, H.: “Whiskering on Carbon Fibers by Heating with a Carbon Dioxide Laser”, Jpn. J. Appl. Phys., 31, L1255-L1257 (1992).<\/li>
  70. OKADA, Y., TAKEUCHI, K., YAMANASHI, H. and USHIJIMA, H.: “Formation of Carbon Whiskers by Heating with a Carbon Dioxide Laser”, J. Mater. Sci. Lett., 11, 1715-1717 (1992).<\/li>
  71. OKADA, Y., KATO, S., SATOOKA, S. and TAKEUCHI, K.: “TEA CO2 Laser-Induced Infrared Multiphoton Dissociation of Zirconium tetra-tert-Butoxide: Reaction Mechanism and Dissociation Products”, J. Laser Applications, 4, 15-21 (1992).<\/li>
  72. KUGA, Y., ENDO, S., SATOOKA, S., OKADA, Y., TASHIRO, H. and TAKEUCHI, K.: “Collection of 235U-Enriched UF5 Particles and Direct Measurement of Separation Factor in Laser Isotope Separation of Uranium”, J. Nucl. Sci. Technol., 28, 870-872 (1991).<\/li>
  73. OKADA, Y., KATO, S., SATOOKA, S. and TAKEUCHI, K.: “Laser Isotope Separation of Heavy Elements by Infrared Multiphoton Dissociation of Metal Alkoxides”, Spectrochimica Acta, 46A, 643-646 (1990).<\/li>
  74. TAKAMATSU, T., SHIOYA, S. and OKADA, Y.: “Molecular Weight Distribution Control in a Batch Polymerization Reactor”, I&EC Research, 27, 93-99 (1988).<\/li>
  75. TAKAMATSU, T., SHIOYA, S. and OKADA, Y.: “Design of Adaptive\/Inferential Control System and Its Application to Polymerization Reactors”, I&EC Process Design&Development, 25, 821-828 (1986).<\/li>
  76. TAKAMATSU, T., SHIOYA, S., OKADA, Y. and KANDA, M.: “Profile Control Scheme in a Baker’s Yeast Fed-Batch Culture”, Biotechnology and Bioengineering, XXVII, 1675-1686 (1985).<\/li><\/ol>\n","protected":false},"excerpt":{"rendered":"

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