Nobuyoshi Koga

Last Updated :2026/07/06

Affiliations, Positions
Graduate School of Humanities and Social Sciences, Professor
E-mail
nkogahiroshima-u.ac.jp
Other Contact Details
1-1-1 KAGAMIYAMA, HIGASHIHIROSHIMA 739-8524 JAPAN, Japan
TEL : (+81)82-424-7092 FAX : (+81)824-24-7092
Self-introduction
Nobuyoshi does research in Science Education, Chemical Kinetics and Solid-state Chemistry. Their current projects are 'Innovative Chemistry Teaching/Learning for Next Generation' and 'Kinetics of Solid-State Reaction: A Continuous Challenge.'

Basic Information

Major Professional Backgrounds

  • 2009/04/01, 2020/03/31, Hiroshima University, Professor
  • 1999/04/01, 2009/03/31, Hiroshima University, Associate Professor
  • 1997/04/01, 1999/03/31, Hiroshima University, Lector
  • 1991/11/01, 1997/03/31, Hiroshima University, Research Assistant

Academic Degrees

  • Ph.D.-CSc., Institute of Chemical Technology in Pardubice
  • Master of Education, Hiroshima University

Educational Activity

  • [Bachelor Degree Program] School of Education : Science, Technology and Society Education : Program in Science Education
  • [Master's Program] Graduate School of Humanities and Social Sciences : Division of Educational Sciences : Educational Design for Teacher Educators Program
  • [Doctoral Program] Graduate School of Humanities and Social Sciences : Division of Educational Sciences : Educational Design for Teacher Educators Program

Research Fields

  • Complex systems;Science education / Educational technology;Science education

Research Keywords

  • environmental education
  • Chemical Education
  • Kinetics
  • energy education
  • Environmental Education
  • Solid-state Reaction

Educational Activity

Course in Charge

  1. 2026, Undergraduate Education, Second Semester, Elementary School Science
  2. 2026, Undergraduate Education, First Semester, Basic Knowledge of Chemistry
  3. 2026, Undergraduate Education, 3Term, Practical Work in Chemistry
  4. 2026, Undergraduate Education, 4Term, Practical Work in Chemistry
  5. 2026, Undergraduate Education, 4Term, Teaching Contents of Chemistry I
  6. 2026, Undergraduate Education, 2Term, Teaching Contents of Chemistry II
  7. 2026, Undergraduate Education, 2Term, Seminar on Teaching Contents in Chemistry
  8. 2026, Undergraduate Education, Second Semester, Laboratory Work in Chemistry Education
  9. 2026, Undergraduate Education, Intensive, Research Seminar in Science Education
  10. 2026, Undergraduate Education, Intensive, Research Seminar in Science Education
  11. 2026, Undergraduate Education, Second Semester, Graduation Thesis
  12. 2026, Undergraduate Education, Second Semester, Practical Seminar for the Teaching Profession
  13. 2026, Graduate Education (Master's Program) , First Semester, Special Study in Science Education A
  14. 2026, Graduate Education (Master's Program) , Second Semester, Special Study in Science Education A
  15. 2026, Graduate Education (Master's Program) , First Semester, Study in Laboratory Learning Design (Science)
  16. 2026, Graduate Education (Master's Program) , 1Term, Basic Study in STEM and the Design of Teaching Materials (Science) a
  17. 2026, Graduate Education (Master's Program) , 3Term, Advanced Study in STEM and the Design of Teaching Materials (Science) a
  18. 2026, Graduate Education (Doctoral Program) , First Semester, Special Study
  19. 2026, Graduate Education (Doctoral Program) , Second Semester, Special Study

Research Activities

Academic Papers

  1. Multistep kinetics of the thermal decomposition of β-nickel hydroxide: extraction of the primary reaction steps and the effect of water vapor pressure, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 28(19), 11942-11959, 20260520
  2. Kinetics of the Solid-State Thermal Dehydration of Sodium Acetate Trihydrate: Effects of Water Vapor Pressure and Particle Size, Journal of Physical Chemistry C, 130(4), 1526-1538, 20260129
  3. Universal kinetic description for the hydration reaction of sodium carbonate anhydride across different temperatures and water vapor pressures, Physical Chemistry Chemical Physics, 27(46), 25027-25042, 20251214
  4. Physico-Geometrical Kinetics of the Thermal Decomposition of ε-Zinc Hydroxide with Different Particle Sizes and Shapes, JOURNAL OF PHYSICAL CHEMISTRY C, 129(45), 20207-20222, 20251113
  5. Physico-geometrical kinetics of the solid-state thermal dehydration of sodium acetate trihydrate in flowing dry N2, Thermochimica Acta, 753, 180149, 20251101
  6. Kinetic insight into the solid-state thermal degradation of chitin: Multistep kinetics and the effect of particle size, Polymer Degradation & Stability, 239(14), 111391, 20250901
  7. Comparative study of the multistep thermal dehydration/decomposition of geopolymer pastes prepared using different active fillers, Thermochimica Acta, 749, 180021, 20250701
  8. Multistep Reaction Pathway and Kinetics of the Thermal Decomposition of Catalyst Precursors: Copper(II)–Zinc Hydroxycarbonates, Industrial & Engineering Chemistry Research, 64(14), 7298-7312, 20250331
  9. Universal kinetic description for the thermal dehydration of sodium carbonate monohydrate powder across different temperatures and water vapor pressures, Physical Chemistry Chemical Physics, 27(6), 3384-3400, 20250214
  10. Kinetic Analysis of the Thermal Decomposition of Inorganic Solids with a Reversible Nature, Netsu Sokutei, 52(1), 2-20, 20250130
  11. Phase transitions of sodium peroxide investigated by DSC, Journal of Thermal Analysis and Calorimetry, 150(1), 585-590, 20241223
  12. Hydration Kinetics in Inorganic Salt−Water Vapor Systems: A Case of Lithium Sulfate, The Journal of Physical Chemistry C, 128(37), 15487-15504, 20240919
  13. Physicogeometrical Kinetic Insight into the Acceleration Effect of Atmospheric Water Vapor on Thermal Decomposition of Calcium Carbonate, The Journal of Physical Chemistry C, 128(28), 11583-11597, 20240718
  14. Water vapor effect on the physico-geometrical reaction pathway and kinetics of the multistep thermal dehydration of calcium chloride dihydrate, Physical Chemistry Chemical Physics, 26(26), 18476-18492, 20240716
  15. Multistep kinetics of the thermal dehydration/decomposition of metakaolin-based geopolymer paste, Thermochimica Acta, 738, 179801, 20240801
  16. Multistep kinetics in self‑induced sol–gel process of amorphous anhydride formation during thermal dehydration of potassium tetraborate tetrahydrate, Journal of Thermal Analysis and Calorimetry, 2024
  17. The physico-geometrical reaction pathway and kinetics of multistep thermal dehydration of calcium chloride dihydrate in a dry nitrogen stream, Physical Chemistry Chemical Physics, 26(16), 12358-12371, 20240428
  18. Extended kinetic approach to reversible thermal decomposition of solids: A universal description considering the effect of the gaseous product and the kinetic compensation effect, Thermochimica Acta, 733, 179699, 20240301
  19. Acid Dissociation Equilibrium and Enthalpy of Neutralization in Sulfuric Acid, Chemistry & Education, 71(11), 508-512, 20231120
  20. pH and Acid Dissociation Equilibrium in Sulfuric Acid, Chemistry & Education, 71(11), 504-507, 20231120
  21. Efflorescence kinetics of sodium carbonate decahydrate: a universal description as a function of temperature, degree of reaction, and water vapor pressure, Physical Chemistry Chemical Physics, 25(40), 27114-27130, 20231028
  22. Kinetic Insight into the Effect of Self-Generated CO2 on the Thermal Decomposition of Inorganic Carbonates in an Inert Gas Atmosphere: ZnCO3 and CaCO3, The Journal of Physical Chemistry C, 127(27), 13065-13080, 20230713
  23. Thermal dehydration of D-glucose monohydrate in solid and liquid states, Physical Chemistry Chemical Physics, 25(24), 16643-16656, 20230628
  24. Dissolution of Calcium Hydroxide in Water: A Guided Inquiry in University and High School Chemistry Laboratories, Journal of Chemical Education, 100(6), 2402-2410, 20230613
  25. Interplay between Thermally Induced Aragonite–Calcite Transformation and Multistep Dehydration in a Seawater Spiral Shell (Euplica scripta), Processes, 11(6), 1650, 20230529
  26. Physico-geometrical kinetic insight into multistep thermal dehydration of calcium hydrogen phosphate dihydrate (2023 HOT PCCP Article), Physical Chemistry Chemical Physics, 25(17), 12081-12096, 20230507
  27. Thermogravimetric approach to efflorescence of sodium carbonate decahydrate, Thermochimica Acta, 724, 179803, 20230401
  28. ICTAC Kinetics Committee recommendations for analysis of thermal decomposition kinetics, Thermochimica Acta, 719, 179384, 20230101
  29. Effect of atmospheric water vapor on independent-parallel thermal dehydration of a compacted composite of an inorganic hydrate: sodium carbonate monohydrate grains comprising crystalline particles and a matrix, Physical Chemistry Chemical Physics, 24(48), 29827-29840, 20221228
  30. Physico-geometrical Kinetic Aspects of the Thermal Dehydration of Trehalose Dihydrate, The Journal of Physical Chemistry C, 126(48), 20423-20436, 20221208
  31. Acceleration Effect of Atmospheric Water Vapor on the Thermal Decomposition of Calcium Carbonate: A Comparison of Various Resources and Kinetic Parameterizations, ACS Sustainable Chemistry & Engineering, 10(34), 11273-11286, 20220829
  32. Physico-geometrical kinetics of the thermal dehydration of sodium carbonate monohydrate as a compacted composite of inorganic hydrate comprising crystalline particles and matrix (2022 PCCP Hot article), Physical Chemistry Chemical Physics, 24(26), 15736-15748, 20220706
  33. Kinetic Parameterization of the Effects of Atmospheric and Self-Generated Carbon Dioxide on the Thermal Decomposition of Calcium Carbonate, The Journal of Physical Chemistry C, 126(18), 7880-7895, 20220512
  34. Individual effects of atmospheric water vapor and carbon dioxide on the kinetics of the thermal decomposition of granular malachite, Physical Chemistry Chemical Physics, 24(18), 11039-11053, 20220514
  35. Thermal decomposition of perlite concrete under different water vapor pressures, Journal of Thermal Analysis and Calorimetry, 147(11), 6309-6322, 20220601
  36. Influence of atmospheric CO2 on the thermal decomposition of perlite concrete, Journal of Thermal Analysis and Calorimetry, 147(10), 5801-5813, 20220501
  37. An advanced kinetic approach to the multistep thermal dehydration of calcium sulfate dihydrate under different heating and water vapor conditions: kinetic deconvolution and universal isoconversional analyses, Physical Chemistry Chemical Physics, 24(16), 9492-9508, 20220428
  38. Thermal behavior and kinetics of the reaction between liquid sodium and calcium hydroxide, Journal of Thermal Analysis and Calorimetry, 147(7), 4635-4643, 20220401
  39. Thermally Stimulated Liquid Na−CaCO3 Reaction: A Physicogeometrical Kinetic Approach toward the Safety Assessment of Na-Cooled Fast Reactors, Industrial & Engineering Chemistry Research, 61(7), 2759-2770, 20220223
  40. Kinetics of component reactions in calcium looping appeared during the multistep thermal decomposition of Portland cement under various atmospheric conditions, Chemical Engineering Journal, 428, 131197, 20220115
  41. Thermally induced dehydration reactions of monosodium L-glutamate monohydrate: dehydration of solids accompanied by liquefaction (2021 PCCP HOT ARTICLE), Physical Chemistry Chemical Physics, 24(1), 129-141, 20220107
  42. Geometrical constraints of thermal dehydration of beta-calcium sulfate hemihydrate induced by self-generated water vapor (2021 HOT PCCP ARTICLE), Physical Chemistry Chemical Physics, 23(40), 22972-22983, 20211028
  43. Effects of Particle Size on the Kinetics of Physico-geometrical Consecutive Reactions in Solid–Gas Systems: Thermal Decomposition of Potassium Hydrogen Carbonate, Journal of Physical Chemistry C, 125(40), 22023-22035, 20211014
  44. Thermal decomposition of spherically granulated malachite: physico-geometrical constraints and overall kinetics (2021 HOT PCCP article), Physical Chemistry Chemical Physics, 23(28), 15107-15118, 20210728
  45. Thermally Induced Aragonite–Calcite Transformation in Freshwater Pearl: A Mutual Relation with the Thermal Dehydration of Included Water, ACS Omega, 6(21), 13904-13914, 20210601
  46. Apparent autocatalysis due to liquefaction: thermal decomposition of ammonium 3,4,5-trinitropyrazolate (2021 HOT PCCP article), Physical Chemistry Chemical Physics, 23(20), 11797-11806, 20210422
  47. Universal Kinetics of the Thermal Decomposition of Synthetic Smithsonite over Different Atmospheric Conditions, The Journal of Physical Chemistry C, 125(2), 1384-1402, 20210121
  48. Discovering the Chemical Mechanism of Common Heating Agents: A Stepwise Inquiry with Student-Designed Experiments in a High School Laboratory Course, Journal of Chemical Education, 98(2), 673-677, 20210209
  49. Kinetic analysis of the multistep thermal decomposition of Maya Blue-type pigments to evaluate thermal stability, Journal of Thermal Analysis and Calorimetry, 142(2), 1073-1085, 20201023
  50. Thermal dehydration of calcium sulfate dihydrate: Physico-geometrical kinetic modeling and influence of self-generated water vapor, Physical Chemistry Chemical Physics, 22(39), 22436-22450, 20201015
  51. Physico-Geometrical Interpretation of the Kinetic Behavior of the Thermal Dehydration of b-Maltose Monohydrate, Industrial & Engineering Chemistry Research, 59(40), 17828-17836, 20201007
  52. Kinetics of contracting geometry-type reactions in the solid state: implications from the thermally induced transformation processes of a-oxalic acid dihydrate (2020 HOT PCCP article), Physical Chemistry Chemical Physics, 22(35), 19560-19575, 20200917
  53. ICTAC Kinetics Committee recommendations for analysis of multi-step kinetics, Thermochimica Acta, 689, 178597, 20200516
  54. Revealing the effect of water vapor pressure on the kinetics of thermal decomposition of magnesium hydroxide, Physical Chemistry Chemical Physics, 22(24), 13637-13649, 20200624
  55. Thermal Dehydration of Lithium Sulfate Monohydrate Revisited with Universal Kinetic Description over Different Temperatures and Atmospheric Water Vapor Pressures, The Journal of Physical Chemistry C, 124(22), 11960-11976, 20200604
  56. Physico-Geometrical Kinetic Modeling of the Thermal Decomposition of Magnesium Hydroxide, The Journal of Physical Chemistry C, 124(4), 2458-2471, 20200104
  57. Stepwise Approach to Hess's Law Using Household Desiccants: A Laboratory Learning Program at High School Chemistry Courses, Journal of Chemical Education, 97(1), 166-171, 20200114
  58. Thermal behavior of perlite concrete used in a sodium-cooled fast reactor: Multistep reaction kinetics and melting for safety assessment, Journal of Thermal Analysis and Calorimetry, 138(2), 983-996, 20191007
  59. Universal Kinetic Description for Thermal Decomposition of Copper(II) Hydroxide over Different Water Vapor Pressures, The Journal of Physical Chemistry C, 123(34), 20903-20915, 20190829
  60. Comparative study on the thermal behavior of structural concretes of sodium-cooled fast reactor: Siliceous concretes, Journal of Thermal Analysis and Calorimetry, 137(4), 1211-1224, 20190830
  61. Thermal Decomposition of Maya Blue: Extraction of Indigo Thermal Decomposition Steps from a Multistep Heterogeneous Reaction Using a Kinetic Deconvolution Analysis, Molecules, 24(13), 2515-1-2515-18, 20190709
  62. Critical Appraisal of Kinetic Calculation Methods Applied to Overlapping Multistep Reactions, Molecules, 24(12), 2298-1-2298-16, 20190627
  63. Impact of atmospheric water vapor on the thermal decomposition of calcium hydroxide: a universal kinetic approach to a physico-geometrical consecutive reaction in solid-gas systems under different partial pressures of product gas (2019 HOT PCCP article), Physical Chemistry Chemical Physics, 21(22), 11615-11632, 20190523
  64. Thermal behavior of sodium hydroxide–structural concrete composition of sodium-cooled fast reactor, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 131(1), 301-308, 2018
  65. Thermal Decomposition of Biomineralized Calcium Carbonate: Correlation between the Thermal Behavior and Structural Characteristics of Avian Eggshell, ACS Sustainable Chemistry & Engineering, 6(4), 5283-5295, 2018
  66. Heterogeneous Kinetic Features of the Overlapping Thermal Dehydration and Melting of Thermal Energy Storage Material: Sodium Thiosulfate Pentahydrate, The Journal of Physical Chemistry C, 122(15), 8480-8490, 20180419
  67. Multistep thermal decomposition of granular sodium perborate tetrahydrate: a kinetic approach to complex reactions in solid-gas systems, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 20(18), 12557-12573, 20180514
  68. Kinetics and Mechanisms of the Thermal Decomposition of Copper(II) Hydroxide: A Consecutive Process Comprising Induction Period, Surface Reaction, and Phase Boundary-Controlled Reaction, The Journal of Physical Chemistry C, 122(24), 12869-12879, 20180621
  69. Thermally induced carbonation of Ca(OH)2 in a CO2 atmosphere: kinetic simulation of overlapping mass-loss and mass-gain processes in a solid-gas system (2018 HOT PCCP article), Physical Chemistry Chemical Physics, 20(41), 26173-26189, 20181013
  70. Characterization of Carbon/Carbon Composites by Kinetic Deconvolution Analysis for a Thermal Oxidation Process: An Examination Using a Series of Mechanical Pencil Leads, Industrial & Engineering Chemistry Research, 57(43), 14460-14469, 20181008
  71. Kinetic analysis of overlapping multistep thermal decomposition comprising exothermic and endothermic processes: thermolysis of ammonium dinitramide, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 19(4), 3254-3264, 2017
  72. Kinetic characterization of multistep thermal oxidation of carbon/carbon composite in flowing air, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 128(2), 891-906, 2017
  73. Application of Thermal Analysis in Reaserch and Development of Sodium-Cooled Fast Reactor, Netsu Sokutei, 43(1), 11-18, 20150908
  74. Permeability and permittivity spectra of substituted barium Ferrites BaFe12-x(Ti0.5Co0.5)(x)O-19(x=0 to 5), JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 399, 64-71, 20160201
  75. Identifying Liquid-Gas System Misconceptions and Addressing Them Using a Laboratory Exercise on Pressure-Temperature Diagrams of a Mixed Gas Involving Liquid-Vapor Equilibrium, JOURNAL OF CHEMICAL EDUCATION, 93(1), 79-85, 201601
  76. Experimental study and kinetic analysis on sodium oxide-silica reaction, JOURNAL OF NUCLEAR SCIENCE AND TECHNOLOGY, 53(5), 682-691, 20160503
  77. Thermal Decomposition of Silver Acetate: Physico-Geometrical Kinetic Features and Formation of Silver Nanoparticles, JOURNAL OF PHYSICAL CHEMISTRY C, 120(16), 8841-8854, 20160428
  78. Model Experiment of Thermal Runaway Reactions Using the Aluminum-Hydrochloric Acid Reaction, JOURNAL OF CHEMICAL EDUCATION, 93(7), 1261-1266, 201607
  79. Reactivity of Household Oxygen Bleaches: A Stepwise Laboratory Exercise in High School Chemistry Course, JOURNAL OF CHEMICAL EDUCATION, 93(8), 1415-1421, 201608
  80. Stepwise Inquiry into Hard Water in a High School Chemistry Laboratory, JOURNAL OF CHEMICAL EDUCATION, 93(11), 1923-1928, 2016
  81. Kinetic approach to multistep thermal behavior of Ag2CO3-graphite mixtures: Possible formation of intermediate solids with Ag2O-Ag and Ag2CO3-Ag core-shell structures, THERMOCHIMICA ACTA, 644, 50-60, 20161120
  82. Thermal degradation of poly(lactic acid) oligomer: Reaction mechanism and multistep kinetic behavior, POLYMER DEGRADATION AND STABILITY, 134, 284-295, 2016
  83. Multistep Kinetic Behavior of the Thermal Decomposition of Granular Sodium Percarbonate: Hindrance Effect of the Outer Surface Layer, JOURNAL OF PHYSICAL CHEMISTRY A, 119(38), 9749-9760, 20150924
  84. Exothermic Behavior of Thermal Decomposition of Sodium Percarbonate: Kinetic Deconvolution of Successive Endothermic and Exothermic Processes , JOURNAL OF PHYSICAL CHEMISTRY A, 119(38), 9761-9769, 20150924
  85. Thermal Decomposition of Tin(II) Oxyhydroxide and Subsequent Oxidation in Air: Kinetic Deconvolution of Overlapping Heterogeneous Processes, JOURNAL OF PHYSICAL CHEMISTRY C, 119(28), 16188-16199, 20150716
  86. Kinetic study on liquid sodium-silica reaction for safety assessment of sodium-cooled fast reactor, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 121(1), 45-55, 201507
  87. Using a Laboratory Inquiry with High School Students To Determine the Reaction Stoichiometry of Neutralization by a Thermochemical Approach , JOURNAL OF CHEMICAL EDUCATION, 92(9), 1526-1530, 20150908
  88. Kinetic Characterization of the Inorganic Solid-State Reactions Using Thermal Analysis, Netsu Sokutei, 42(1), 2-9, 20150131
  89. A Simple Oxygen Detector Using Zinc-Air Battery, JOURNAL OF CHEMICAL EDUCATION, 91(2), 297-299, 201402
  90. ICTAC Kinetics Committee recommendations for collecting experimental thermal analysis data for kinetic computations, THERMOCHIMICA ACTA, 590, 1-23, 20140820
  91. Kinetic Modeling for Thermal Dehydration of Ferrous Oxalate Dihydrate Polymorphs: A Combined Model for Induction Period-Surface Reaction-Phase Boundary Reaction, JOURNAL OF PHYSICAL CHEMISTRY A, 118(13), 2401-2412, 20140403
  92. Multistep Kinetic Behavior in the Thermal Degradation of Poly(L-Lactic Acid): A Physico-Geometrical Kinetic Interpretation, JOURNAL OF PHYSICAL CHEMISTRY B, 118(38), 11397-11405, 20140925
  93. Mutual Relationship between Solid-State Aragonite-Calcite Transformation and Thermal Dehydration of Included Water in Coral Aragonite, CRYSTAL GROWTH & DESIGN, 14(2), 879-887, 201402
  94. Phenomenological Interpretation of the Multistep Thermal Decomposition of Silver Carbonate To Form Silver Metal, JOURNAL OF PHYSICAL CHEMISTRY C, 118(15), 8059-8070, 20140417
  95. Phenomenological Kinetics of the Carbonation Reaction of Lithium Hydroxide Monohydrate: Role of Surface Product Layer and Possible Existence of a Liquid Phase, JOURNAL OF PHYSICAL CHEMISTRY C, 118(10), 5424-5436, 20140313
  96. Physico-Geometrical Kinetics of Solid-State Reactions in an Undergraduate Thermal Analysis Laboratory, JOURNAL OF CHEMICAL EDUCATION, 91(2), 239-245, 201402
  97. Physico-Geometrical Mechanism and Overall Kinetics of Thermally Induced Oxidative Decomposition of Tin(II) Oxalate in Air: Formation Process of Microstructural Tin(IV) Oxide, JOURNAL OF PHYSICAL CHEMISTRY C, 118(31), 17847-17861, 20140807
  98. Aragonite Crystal Growth and Solid-State Aragonite-Calcite Transformation: A Physico-Geometrical Relationship via Thermal Dehydration of Included Water, CRYSTAL GROWTH & DESIGN, 13(5), 2238-2246, 201305
  99. Chemical Composition of Sodium Percarbonate: An Inquiry-Based Laboratory Exercise, JOURNAL OF CHEMICAL EDUCATION, 90(8), 1048-1052, 201308
  100. Energy Diagram for the Catalytic Decomposition of Hydrogen Peroxide, JOURNAL OF CHEMICAL EDUCATION, 90(5), 633-636, 201305
  101. Improvement of Quality in Publication of Experimental Thermophysical Property Data: Challenges, Assessment Tools, Global Implementation, and Online Support, JOURNAL OF CHEMICAL AND ENGINEERING DATA, 58(10), 2699-2716, 201310
  102. Kinetic approach to partially overlapped thermal decomposition processes, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 111(2), 1463-1474, 201302
  103. Kinetics and Mechanism of the Thermal Decomposition of Sodium Percarbonate: Role of the Surface Product Layer, JOURNAL OF PHYSICAL CHEMISTRY A, 117(9), 1880-1889, 20130307
  104. Magnetic phase transitions in substituted barium ferrites BaFe12-x(Ti0.5Co0.5)(x)O-19 (x=0-5), JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 325, 36-41, 201301
  105. Neutralization and Acid Dissociation of Hydrogen Carbonate Ion: A Thermochemical Approach, JOURNAL OF CHEMICAL EDUCATION, 90(5), 637-641, 201305
  106. Ozawa's kinetic method for analyzing thermoanalytical curves History and theoretical fundamentals, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 113(3), 1527-1541, 201309
  107. The Ozawa's generalized time concept and YZ-master plots as a convenient tool for kinetic analysis of complex processes, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 113(3), 1437-1446, 201309
  108. Thermal Decomposition of Silver Carbonate: Phenomenology and Physicogeometrical Kinetics, JOURNAL OF PHYSICAL CHEMISTRY C, 117(1), 326-336, 20130110
  109. Effect of Atmospheric Water Vapor on the Thermally Induced Crystallization in Zirconia Gel, JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 95(2), 557-564, 201202
  110. Thermal Dehydration of Magnesium Acetate Tetrahydrate: Formation and in Situ Crystallization of Anhydrous Glass, JOURNAL OF PHYSICAL CHEMISTRY B, 116(49), 14477-14486, 20121213
  111. Formation and Transformation Kinetics of Amorphous Iron(III) Oxide during the Thermally Induced Transformation of Ferrous Oxalate Dihydrate in Air, JOURNAL OF PHYSICAL CHEMISTRY A, 115(2), 141-151, 20110120
  112. Laboratory Inquiry for Determining the Chemical Composition of a Component in a Daily Use Detergent: Sodium Sesquicarbonate, JOURNAL OF CHEMICAL EDUCATION, 88(9), 1309-1313, 201109
  113. Monohydrocalcite in Comparison with Hydrated Amorphous Calcium Carbonate: Precipitation Condition and Thermal Behavior, CRYSTAL GROWTH & DESIGN, 11(9), 3877-3884, 201109
  114. Phenomenological Kinetics of the Thermal Decomposition of Sodium Hydrogencarbonate, JOURNAL OF PHYSICAL CHEMISTRY A, 115(50), 14417-14429, 20111222
  115. Thermal Dehydration of Monohydrocalcite: Overall Kinetics and Physico-geometrical Mechanisms, JOURNAL OF PHYSICAL CHEMISTRY A, 115(38), 10491-10501, 20110929
  116. Thermally induced transformations of calcium carbonate polymorphs precipitated selectively in ethanol/water solutions, THERMOCHIMICA ACTA, 512(1-2), 13-21, 20110110
  117. A convenient measurement of oxygen concentration using zinc-air battery, Chemical Education Journal, 13(1), Reg. No.13-10, 20091201
  118. Catalytic action of atmospheric water vapor on the thermal decomposition of synthetic hydrozincite, Transactions of the Materials Research Society of Japan, 34(2), 343-346, 20090801
  119. Effect of atmosphericwater vapor on the kinetics of thermal decomposition of copper(II) carbonate hydroxide, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 95(2), 483-487, 200902
  120. Influences of evolved gases on the thermal decomposition of zinc carbonate hydroxide evaluated by controlled rate evolved gas analysis coupled With TG, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 95(2), 489-493, 200902
  121. Phenolphthalein as Organic Teaching Materials: Small-scale Preparation and Modeling for Some Functional Dyes, Chemical Education Journal, 13(1), Reg. No.13-11, 20091201
  122. Temperature effect on cobalt(II) chloride complex equilibrium in aqueous solution, Chemical Educator, 14, 225-228, 20091201
  123. Thermochemical approaches to neutralization reaction between weak acid and strong base, Chemical Education Journal, 13(1), Red. No. 13-4, 20091201
  124. Biomedical Thermodynamics and Implantology Aspects of Biocompatible Glass-Ceramics and Otherwise Modified Inordanic Materials and Surfaces, Advanced Materials Research, 39-40, 329-334, 20080408
  125. Effect of mechanical grinding on the reaction pathway and kinetics of the thermal decomposition of hydromagnesite, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 93(3), 963-971, 200809
  126. Green Chemical Experiment: Indigo Dyeing, The Chemical Educator, 13(6), 344-347, 20081212
  127. Thermal behaviors of amorphous calcium carbonates prepared in aqueous and ethanol media, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 94(2), 379-387, 200811
  128. Thermal Decomposition of Indium(III) Hydroxide Prepared by the Microwave-Assisted Hydrothermal Method, JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 91(12), 4052-4058, 200812
  129. Thermal decomposition of synthetic antlerite prepared by microwave-assisted hydrothermal method, THERMOCHIMICA ACTA, 467(1-2), 11-19, 20080130
  130. Preparation of substituted barium ferrite Ba_12-x_(Ti_0.5_Co_0.5_)_x_O_19_ by citrate precursor method and compositional dependence of their properties, Journal of Magnetism and Magnetic Materials, 313(1), 168-175, 20070601
  131. The Chemical Equilibrium between Nitrogen Dioxide and Dinitrogen Tetroxide. An Introductory Experiment in Chemical Thermodynamics, The Chemical Educator, 12, 248-252, 20070801
  132. Thermal dehydration of lithium metaborate dihydrate and phase transitions of anhydrous product, THERMOCHIMICA ACTA, 443(2), 197-205, 20060415
  133. A comparative study of the effects of decomposition rate control and mechanical grinding on the thermal decomposition of aluminum hydroxide, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 81(3), 595-601, 200508
  134. An Experimental Approach to the Precipitation Reaction of Basic Zinc Carbonate, The Chemical Educator, 10(6), 440-443, 20051201
  135. Influences of product gases on the kinetics of thermal decomposition of synthetic malachite evaluated by controlled rate evolved gas analysis coupled with thermogravimetry, INTERNATIONAL JOURNAL OF CHEMICAL KINETICS, 37(6), 346-354, 200506
  136. Kinetics of the thermal decomposition of sodium hydrogen carbonate evaluated by controlled rate evolved gas analysis coupled with thermogravimetry, THERMOCHIMICA ACTA, 431(1-2), 38-43, 20050615
  137. New assembled Fe-trans-1,2-bis(4-puridyl)ethylene-NCS(NCSe) complexes -hydrogen bonded and pai-pai interacted structure and grid structure enclathrating ligand, Inorganica Chimica Acta, 358, 257-264, 20050101
  138. Thermal decomposition of copper(II) and zinc carbonate hydroxides by means of TG-MS - Quantitative analyses of evolved gases, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 82(3), 725-729, 200511
  139. Thermal dehydration of dipotassium tetraborate tetrehydrate and crystallization of amorphous dehydration product, Journal of Thermal Analysis and Calorimetry, 80(1), 71-75, 20050301
  140. Period for Integrated Study through the Water Environment Study: A Case of the Fourth Grader in Saijo Elementary School, 11, 81-86, 20050320
  141. A Science Class Designed for Heightening the Ability of Communication(1), JOURNAL OF JUNIOR HIGH SCHOOL EDUCATION, 37, 65-72, 20051101
  142. Controlled rate thermal decomposition of synthetic bayerite under vacuum, SOLID STATE IONICS, 172(1-4), 253-256, 20040831
  143. Cooperation of school, home and community based on the idea of Eco Museum: In the case of the lessons of life environment studies at Kuba elementary school, Hiroshima Journal of School Education, 10, 85-93, 20040301
  144. A Science Class Designed for Heightening the Ability of Communication(1), JOURNAL OF JUNIOR HIGH SCHOOL EDUCATION, 36, 63-70, 20040301
  145. A unified theory for the kinetic analysis of solid state reactions under any thermal pathway, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 72(3), 901-906, 2003
  146. Magnetic Temperature Standards for TG, Journal of Thermal Analysis and Calorimetry, 72(3), 1109-1116, 20030701
  147. Thermodynamics of non-bridging oxygen in silica bio-compatible glass-ceramics - Mimetic material for the bone tissue substitution, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 71(3), 927-937, 2003
  148. A kinetic aspect of the thermal dehydration of dilithium tetraborate trihydrate, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 67(1), 153-161, 2002
  149. A physico-geometric approach to the kinetics of solid-state reactions as exemplified by the thermal dehydration and decomposition of inorganic solids, THERMOCHIMICA ACTA, 388(1-2), 41-61, 20020618
  150. Preparation and thermal decomposition of synthetic bayerite, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 64(3), 965-972, 2001
  151. Crystal nucleation and growth in lithium diborate glass by thermal analysis, JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 83(7), 1753-1760, 200007
  152. Kinetic analysis of solid-state reactions: The universality of master plots for analyzing isothermal and nonisothermal experiments, JOURNAL OF PHYSICAL CHEMISTRY A, 104(46), 10777-10782, 20001123
  153. Kinetic analysis of the thermal decomposition of synthetic malachite by CRTA, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 60(3), 943-954, 2000
  154. Kinetic Modeling of Advanced Inorganic Glass-Ceramics Formation By Crystal Growth from Preexisting Nuclei, Journal of Thermal Analysis and Calorimetry, 60, 667-674, 20000301
  155. Apparent kinetic behavior of the thermal decomposition of synthetic malachite, Thermochimica Acta, 340-341, 387-394, 19991101
  156. Application of the kissinger method to solid-state reactions with a particle size distribution, Journal of Mining and Metallurgy, 35B(2-3), 171-186, 19991001
  157. Thermal Analysis and Kinetics of Solid-State Reactions-Its Application to Education in Chemistry, Journal of Thermal Analysis and Calorimetry, 56, 855-861, 19990401
  158. Crystallization of amorphous calcium carbonate, Thermochimica Acta, 318, 239-244, 19980901
  159. Kinetic analyses of solid-state reactions with a particle size distribution, Journal of American Ceramic Society, 81(11), 2901-2909, 19981101
  160. The influence of mass transfer phenomena on the kinetic analysis for the thermal decomposition of calcium carbonate by constant rate thermal analysis(CRTA) under vacuum, International Journal of Chemical Kinetics, 30(10), 737-744, 19981001
  161. Influence of the particle size distribution on the CRTA curves for the solid state reactions of interface shrinkage type, Journal of Thermal Analysis, 49(3), 1477-1484, 19970501
  162. Kinetics and mechanism of the isothermal dehydration of zinc acetate dihydrate, Thermochimica Acta, 303, 69-76, 19971201
  163. Physico-geometric kinetics of solid-state reactions by thermal analyses, Journal of Thermal Analysis, 49(1), 45-56, 19970501
  164. Reaction pathway and kinetics of the thermal decomposition of synthetic brochantite, Journal of Thermal Analysis, 49(3), 1467-1475, 19970501
  165. Accommodation of the Actual Solid-State Process in the Kinetic Model Function Part 2. Applicability of Empirical Model Function for the Diffusion Controlled Reactions, Thermochimaca Acta, 282-283, 69-80, 19960401
  166. A kinetic study of the thermal decomposition of iron(III) oxide-hydroxides. Part 2. Preparation and thermal decomposition of g-FeO(OH), Thermochimica Acta, 267, 195-208, 19951001
  167. Kinetic analysis of thermoanalytical data by extrapolating to infinite temperature, Thermochimica Acta, 258, 145-159, 19950601
  168. Thermal Dehydration of Crystalline Hydrates-Microscopic Studies and Introductory Experiments to the Kinetics of Solid-State Reactions-, Journal of Chemical Education, 72(3), 251-256, 19950301
  169. A review of the mutual dependence of Arrhenius parameters evaluated by the thermoanalytical study of solid-state reactions: the kinetic compensation effect, Thermochimica Acta, 244, 1-20, 19940801
  170. Accomodation of the actual solid-state process in the kinetic model function I. Significance of the non-integral kinetic exponents, Journal of Thermal Analysis, 41, 455-469, 19940201
  171. Effect of sample mass on the kinetics of thermal decomposition of a solid. Part 3. Nonisothermal mass-loss process of molten NH4NO3, Thermochimica Acta, 240, 141-151, 19940401
  172. Kinetic and morphological studies of the thermal dehydration of a-Nickel(II) sulfate hexahydrate, Journal of Physical Chemistry, 98(41), 10521-10528, 19941101
  173. Physico-Chemical Investigations on Crustal Materials and Their Development in the Environmental Education, 16, 79-91, 19940101
  174. Data treatment in nonisothermal kinetics and diagonostic limits of phenomenological models, 20(4), 210-223, 19931001
  175. Effect of sample mass on the kinetics of thermal decomposition of a solid. II. Isothermal dehydration of Li2SO4・H2O, Journal of Thermal Analysis, 40, 1173-1179, 19930401
  176. The kinetics of the isothermal dehydration of lithium sulfate monohydrate under a self-generated temperature condition, Thermochimica Acta, 224, 141-149, 19930801
  177. Thermoanalytical and microscopic investigations of the thermal dehydration of a-nickel(II) sulfate hexahydrate, Journal of Thermal Analysis, 40, 1165-1172, 19930401
  178. Effect of sample mass on the kinetics of thermal decomposition of a solid. Part 1. Isothermal mass-loss process of molten NH4NO3, Thermochimica Acta, 209, 127-134, 19921101
  179. Factors affecting the experimentally resolved shapes of TG curves, Journal of Thermal Analysis, 38, 575-582, 19920701
  180. Kinetics of crystallization in the soda-lime-silica system. Part 1. Na2O・CaO・2SiO2 and Na2O・CaO・3SiO2 galsses by DTA, Thermochimica Acta, 203, 361-372, 19920601
  181. On the fractional conversion a in the kinetic description of solid state reactions, Journal of Thermal Analysis, 38, 2553-2557, 19921001
  182. Problems of YBa2Cu3Ox formation and decomposition kinetics and mechanism, Thermochimica Acta, 203, 321-337, 19920601
  183. Thermoanalytical kinetics and physico-geometry of the nonisothermal crystallization of glasses, Boletin de la Sociedad Espanola de Ceramica y Vidrio, 31(3), 185-190, 19920901
  184. Thermoanalytical kinetics for solid state reactions as exemplified by the thermal dehydration of Li2SO4・H2O, Thermochimica Acta, 203, 203-330, 19920601
  185. A kinetic compensation effect established for the thermal decomposition of a solid, Journal of Thermal Analysis, 37, 347-363, 19910301
  186. Conventional kinetic analysis of the thermogravimetric curves for the thermal decomposition of a solid, Thermochimica Acta, 193, 125-136, 19910701
  187. Distortion of the Arrhenius parameters by the inappropriate kinetic model function, Thermochimica Acta, 188, 333-336, 19911001
  188. Further aspects of the kinetic compensation effect, Journal of Thermal Analysis, 203, 1103-1108, 19911101
  189. Kinetic analysis of the nonisothermal dehydration of lithium sulfate monohydrate, Thermochimica Acta, 185, 135-140, 19910901
  190. Kinetic compensation effect as a mathematical consequence of the exponential rate constant, Thermochimica Acta, 182, 201-208, 19910501
  191. Thermogravimetry of basic copper(II) sulphate obtained by titrating NaOH solution with CuSO4 solution, Thermochimica Acta, 182, 281-292, 19910501
  192. A Kinetic and Microscopic Investigation of the Thermal Dehydration of Lithium Sulphate Monohydrate, Journal of Chemical Society Faradoy Transaction, 86, 531-, 19900301
  193. Kinetic study of the thermal dehydration of copper(II) acetate monohydrate. I. Single crystal material, Solid State Ionics, 44, 1-9, 19900901
  194. Kinetic study of the thermal dehydration of copper(II) acetate monohydrate. II. Crushed crystals, Thermochimica Acta, 173, 53-62, 19900901
  195. Kinetics of nonisothermal dehydration of crushed crystals of potassium copper(II) chloride dihydrate, Thermochimica Acta, 163, 295-302, 19900701
  196. Self-cooling effect on the kinetics of nonisothermal dehydration of lithium sulfate monohydrate, Journal of Thermal Analysis, 36, 2601-2610, 19901201
  197. The thermal decomposition of basic copper(II) sulfate, Journal of Chemical Education, 67(7), 612-614, 19900701
  198. The Significance of Kinetics of the Nonisothermal Decomposition of Solids, Bull. Fac. Sch. Educ. Hiroshima Univ. Part (]G0001[) Vol. 14., 12, 79-90, 19890101
  199. Kinetic compensation effect between the isothermal and nonisothermal decomposition of solids, Journal of Thermal Analysis, 34, 685-691, 19880801
  200. Kinetics of the thermal dehydration of potassium copper(II) chrolide dihydrate, Journal of Physical Chemistry, 92(24), 7023-7029, 19881201
  201. Polarizing miroscopy for examining mehanisms of thedecomposition of single crystal materials, Thermochimica Acta, 133, 227-232, 19881001
  202. Preparation and thermal decomposition of basic copper(II) sulfates, Thermochimica Acta, 133, 221-226, 19881001
  203. Singnificance of kinetic compensation effect in the thermal decomposition of a solid, Thermochimica Acta, 135, 79-84, 19881001
  204. Kinetics of the thermal decompositions of MC2O4 to MCO3 (M=Ca,Sr,and Ba), Journal of Thermal Analysis, 32, 1521-1529, 19870101
  205. Kinetic study of the dehydration of sodium citrate dihydrate, Reactivity of Solids, 2, 169-175, 19860101

Publications such as books

  1. 2022/06/21, Thermal Analysis of Polymeric Materials: Methods and Developments, Volume 1, Thermoanalytical Methods: Fundamental Principles and Features, Wiley‐VCH GmbH, 2022, 202206, Scholarly Book, Single work, English, Nobuyoshi Koga, 9783527347827, 658, Chapter 1
  2. 2018/03, Handbook of Thermal Analysis and Calorimetry, Physico-Geometric Approach to the Kinetics of Overlapping Solid-State Reactions, Elsevier, 2018, 03, Scholarly Book, Cocompilation, English, Nobuyoshi Koga, 15734374, 842, 62
  3. 2017/02/15, Thermal Analysis (4th Ed.), Kodansha, 2017, 2, Scholarly Book, Compilation, 日本語, Hirohisa Yoshida and Nobuyoshi Koga, 978-4-06-154396-6, 436
  4. 2017/02, Thermal Physics and Thermal Analysis, Chapter 2. Sample Controlled Thermal Analysis (SCTA) as a Promissing Tool for Kinetic Characterization of Solid-State Reaction and Controlled Material Synthesis, 201702, 2017, 02, Scholarly Book, Joint work, English, Jose M. Criado, Luis A. Perez-Maqueda, Nobuyoshi Koga, 978-3-319-45897-7, 567
  5. 2013/01, Thermal analysis of micro, nano- and non-crystalline materials, Springer Verlag, 2013, 01, Scholarly Book, Joint work, 9789048131501, 484, 28, Chapter 1. Some Fundamental and Historical Aspects of Phenomenological Kinetics in the Solid Sate Studied by Thermal Analysis
  6. 2009/10, Some thermodynamic, structural and behavioral aspects of materials accentuating non-crystalline states, 2009, 10, Scholarly Book, Cocompilation, 9788087269060 , 607
  7. 2004/07, Comprehensive Handbook of Calorimetry & Thermal Analysis , John Wiley & Sons Ltd., 2004, 07, Scholarly Book, Cocompilation, 534

Invited Lecture, Oral Presentation, Poster Presentation

  1. Kinetic Analysis of Thermal Decomposition of Solids Using Thermal Analysis: Current Status and Challenges, Nobuyoshi Koga, Mito Hotta, Nobuyoshi Koga, Mito Hotta, The 12th China-Japan Joint Symposium on Calorimetry and Thermal Analysis (CATS-2023), 2023/09/23, With Invitation, English, The Chinses Chemical Society, Taian (China)
  2. Exploring physico-geometrical kinetic features of the thermal decomposition of solids using thermal analysis, Nobuyoshi KOGA, Yuto ZUSHI, Mito HOTTA, Shunsuke FUKUNAGA, Nobuyoshi KOGA, Yuto ZUSHI, Mito HOTTA, Shunsuke FUKUNAGA, 7th Central and Eastern European Conference on Thermal Analysis and Calorimetry (CEEC-TAC7), 2023/08/30, With Invitation, English, CEEC-TAC, Brno (Czech Republic)
  3. UNIVERSAL KINETIC APPROACH TO THERMAL DECOMPOSITION OF SOLIDS OVER DIFFERENT PARTIAL PRESSURES OF EVOLVED GAS, Nobuyoshi Koga, Mito Hotta, and Loic Favergeon, Virtual Intercontinental Assembly on Calorimetry and Thermal Analysis (VIACTA2022), 2022/10/25, With Invitation, English, The Japan Society of Calorimetry and Thermal Analysis, Pnline
  4. Kinetic approach to complex reactions of solids using thermal analysis, Nobuyoshi Koga, International Symposium on Applications of Thermal Analysis and Calorimetry (SATAC-2021), 2021/12/21, With Invitation, English, Indian Chemical Society, Online
  5. Kinetic Description for the Thermal Decomposition of Solids with Three Variables: Temperature, Conversion, and Partial Pressure, NOBUYOSHI KOGA, TAIGA TONE, MITO HOTTA, LOIC FAVERGEON, 17th International Congress on Thermal Analysis and Calorimetry, 2021/08/29, With Invitation, English, International Confederation of Thermal Analysis and Calorimetry (ICTAC), Online
  6. Kinetic approach to complex reactions in solid–gas systems: A continuous challenge, Nobuyoshi Koga, CEEC-TAC5 & Medicta2019, 2019/08, With Invitation, English, Central and Eastern European Society of Thermal Analysis and Calorimetry Mediterranean Society of Thermal Analysis and Calorimetry, Roma
  7. What will you teach? How will you perform?: A Figure of Chemistry Teacher for Next Generation, Nobuyoshi Koga, 4th International Seminar on Science Education, 2018/10, With Invitation, English, University State Yogyakarta, Yogyakarta, Insonesia
  8. Laboratory Teaching/Learning in Chemistry for Promoting STEM Education for Next Generation, Nobuyoshi Koga, 4th International Seminar on Science Education, 2018/10, With Invitation, English, University State Yogyakarta, Yogyakarta, Indonesia
  9. Kinetic Approach to Multistep Reactions in Solid-Gas Systems: Practical Examples, Nobuyoshi Koga, NATAS2018, 2018/08, With Invitation, English, The North American Thermal Analysis Society, Philadelphia, USA
  10. Impact of Evolved Gas on the Reaction Kinetics in Inorganic Solid–Gas Systems, Nobuyoshi Koga, North American Conference of Thermal Analysis 2018, 2018/08, With Invitation, English, The North American Thermal Analysis Society, Philadelphia, USA
  11. PHYSICO-GEOMETRIC KINETICS OF COMPLEX SOLID-STATE REACTIONS, N. Koga, L.A. Perez-Maqueda, L. Favergeon, N.V. Muravyev, S. Yamada, N. Koga, L.A. Perez-Maqueda, L. Favergeon, N.V. Muravyev, S. Yamada, 49th French Conference of Calorimetry and Thermal Analysis, 2018/05, With Invitation, English, French Society of Calorimetry and Thermal Analysis, Saint-Etienne, France
  12. Logics and practice of kinetic deconvolution analysis of solid-state reactions, Nobuyoshi Koga, 16th International Confederation for Thermal Analysis and Calorimetry, 2016/08, With Invitation, English, International Confederation for Thermal Analysis and Calorimetry, Orlando, FL(USA)
  13. Actuals of superficially ideal solid-state reactions for kinetic analysis using thermal analysis, Nobuyoshi Koga, 16th International Confederation for Thermal Analysis and Calorimetry, 2016/08, With Invitation, English, International Confederation for Thermal Analysis, Orlando, FL(USA)
  14. A Multidisciplinary and Comprehensive Chemistry Teaching/Learning for Next Generation, Nobuyoshi Koga, 1st International Seminar on Chemical Education, 2015/09, With Invitation, English, Islamic University of Indnesia, Yogyakarta(Indonesia)
  15. A Multidisciplinary and Comprehensive Chemistry Teaching/Learning and STEM Education, Nobuyoshi Koga, IUPAC-2015 45th World Chemistry Congress, 2015/08, With Invitation, English, IUPAC, Busan(Korea)
  16. Kinetic Deconvolution of Thermoanalytical Curves of Solid-State Reactions, Nobuyoshi Koga, 3rd Central & Eastern European Conference on Thermal Analysis and Calorimetry(CEEC-TAC3), 2015/08, With Invitation, English, Ljubljana(Slovenia)
  17. Thermoanalytical Approach to Kinetic Phenomena in Solid-State as Exemplified by Thermal Decomposition of Solids, Nobuyoshi Koga, 11th IUPAC Conference on Solid State Chemistry, 2014/06, With Invitation, English
  18. TG measurements for Kinetic Analysis of Thermal Decomposition of Solids, Nobuyoshi Koga, The 41th Anual Conference of North American Thermal Analysis Society, 2013/08, With Invitation, English
  19. PHENOMENOLOGY AND PHYSICO-GEOMETRICAL KINETICS OF THERMAL DECOMPOSITION OF SOLIDS, Nobuyoshi Koga, 4th Joint Czech-Hungarian-Polish-Slovak Thermoanalytical Conference, 2013/06, With Invitation, English
  20. Thermal Analysis -Review and Frontier-, Nobuyoshi Koga, The 15th International Congress on Thermal Analysis and Calorimetry, 2012/08, With Invitation, English
  21. Ozawa's Kinetic Analysis for the Thermoanalytical Curves -History and Theoretical Fundamentals-, Nobuyoshi Koga, The 15th International Congress on Thermal Analysis and Calorimetry, 2012/08, With Invitation, English
  22. Development of Introductory Experiments in Chemical Thermodynamics -Guided Inquiries Based on Thermal Science at High School-, Nobuyoshi Koga, 13th Asian Chemical Congress, 2009/09, With Invitation, English
  23. Controlled Rate EGA-TG and Humidity Controlled TG as Applied to Thermal Decomposition of Inorganic Solids, Nobuyoshi Koga, The 37th Anual Conference of North American Thermal Analysis Society, 2009/08, With Invitation, English
  24. Significance of Reaction Rate Control on the Thermal Decomposition of Solids, Nobuyoshi Koga, The Third International Symposium on the New Frontiers of Thermal Studies of Materials, 2004/11, With Invitation, English
  25. Physico-geomeric kinetics of solid-state reactions by thermal analyses, Nobuyoshi Koga, International conference of thermal analysis and calorimetry, 1996/08, With Invitation, English

Awards

  1. 2024/05/02, 2024 HOT PCCP article, The Royal Society of Chemistry, Physical Chemistry Chemical Physics (Editors), Physico-geometrical reaction pathway and kinetics of multistep thermal dehydration of calcium chloride dihydrate in a dry nitrogen stream
  2. 2023/11/02, 2023 HOT PCCP article, The Royal Society of Chemistry, Physical Chemistry Chemical Physics (Editors), Efflorescence kinetics of sodium carbonate decahydrate: A universal description as a function of temperature, degree of reaction, and water vapor pressure
  3. 2023/08/04, BEST POSTER PRESENTATION "TA Instruments Award", 26th IUPAC International Conference on CHEMICAL THERMODYNAMICS (ICCT-2023) Chair, Kinetic Parameterization of the Catalytic Effect of Water Vapor on the Thermal Decomposition of Calcium Carbonate
  4. 2023/05/04, 2023 HOT PCCP article, The Royal Society of Chemistry, Physical Chemistry Chemical Physics (Editors), Physico-geometrical kinetic insight into multistep thermal dehydration of calcium hydrogen phosphate dihydrate
  5. 2022/07/01, 2022 HOT PCCP article, The Royal Society of Chemistry, Physical Chemistry Chemical Physics (Editors), Physico-geometrical kinetics of the thermal dehydration of sodium carbonate monohydrate as a compacted composite of inorganic hydrate comprising crystalline particles and matrix
  6. 2022/01/06, 2021 HOT PCCP article, The Royal Society of Chemistry, Physical Chemistry Chemical Physics (Editors), Thermally induced dehydration reactions of monosodium l-glutamate monohydrate: dehydration of solids accompanied by liquefaction
  7. 2021/11/02, 2021 HOT PCCP article, The Royal Society of Chemistry, Physical Chemistry Chemical Physics (Editors), Geometrical constraints of thermal dehydration of β-calcium sulfate hemihydrate induced by self-generated water vapor
  8. 2021/08/04, 2021 HOT PCCP article, The Royal Society of Chemistry, Physical Chemistry Chemical Physics (Editors), Thermal decomposition of spherically granulated malachite: physico-geometrical constraints and overall kinetics
  9. 2020/09/09, 2020 HOT PCCP article, The Royal Society of Chemistry, Physical Chemistry Chemical Physics (Editors), Kinetics of contracting geometry-type reactions in the solid state: implications from the thermally induced transformation processes of α-oxalic acid dihydrate
  10. 2021/06/04, 2021 HOT PCCP article, The Royal Society of Chemistry, Physical Chemistry Chemical Physics (Editors), Apparent Autocatalysis Due to Liquefaction: Thermal Decomposition of Ammonium 3,4,5-Trinitropyrazolate
  11. 2019/08/01, Network for Inter-Asian Chemistry Educators Poster Prize, Chairperson of the Organizing Committee for NICE 2019, Thermochemistry of Daily-use Heating Agent: A Stepwise Inquiry in High School Laboratory
  12. 2019/08/01, Network for Inter-Asian Chemistry Educators Poster Prize, Chairperson of the Organizing Committee for NICE 2019, Classroom Activity on Chemical Kinetics Using a Series of Games: Transpacific Traveler
  13. 2018/08/08, The NATAS Fellowship Award, The North American Thermal Analysis Society
  14. 2016/11/05, Excellent Educator Award, Hiroshima University
  15. 2016/08/18, ICTAC16 General Poster Competition, 1st Place, International Confederation for Thermal Analysis and Calorimetry (ICTAC)
  16. 2014/09, The Award of The Japan Society of Calorimetry and Thermal Analysis, The Japan Society of Calorimetry and Thermal Analysis, Kinetic Characterization of the Inorganic Solid-State Reactions Using Thermal Analysis
  17. 2013/05/07, The Jaroslav Heyrovsky Honorary Medal for Merit in Chemical Sciences, President, The Academy of Sciences of the Czech Republic
  18. 2013/06/24, Pam?tni medaili Univerzity Pardubice, Rektor, University Pardubice, Czech Republic
  19. 2010/08, IUPAC Poster Prize, IUPAC President, Laboratory inquiry for determining the chemical composition of a component in a daily use detergent: Sodium sesquicarbonate
  20. 1996/08, ICTAC Young Scientist Award, Int. Conf. Therm.Anal. Calor., 熱分析による固相反応の速度論的解析