SATOSHI NAKATA

Last Updated :2024/04/03

Affiliations, Positions
Graduate School of Integrated Sciences for Life, Professor
E-mail
nakatashiroshima-u.ac.jp

Basic Information

Academic Degrees

  • Doctor of Science, Nagoya University
  • Master of Engineering, The University of Tokushima

Research Fields

  • Chemistry;Basic chemistry;Physical chemistry
  • Chemistry;Applied chemistry;Functional solid state chemistry

Educational Activity

Course in Charge

  1. 2024, Liberal Arts Education Program1, 2Term, Modern Chemistry
  2. 2024, Undergraduate Education, First Semester, Special Study for Graduation
  3. 2024, Undergraduate Education, Second Semester, Special Study for Graduation
  4. 2024, Undergraduate Education, 4Term, Molecular Photochemistry
  5. 2024, Undergraduate Education, 3Term, Radiochemistry
  6. 2024, Undergraduate Education, 4Term, Fundamentals and Applications of Chemical Reaction Dynamics in Cells
  7. 2024, Graduate Education (Master's Program) , 1Term, Introduction to Life Science
  8. 2024, Graduate Education (Master's Program) , Academic Year, Research for Academic Degree Dissertation in Mathematical and Life Sciences
  9. 2024, Graduate Education (Master's Program) , 1Term, Self-organization in Chemistry B
  10. 2024, Graduate Education (Master's Program) , 4Term, Special Lecture on Mathematical and Life Sciences B
  11. 2024, Graduate Education (Master's Program) , 2Term, Topical Seminar in Life Science A
  12. 2024, Graduate Education (Master's Program) , 4Term, Topical Seminar in Life Science B
  13. 2024, Graduate Education (Master's Program) , First Semester, Exercises in Life Science A
  14. 2024, Graduate Education (Master's Program) , Second Semester, Exercises in Life Science B
  15. 2024, Graduate Education (Doctoral Program) , Academic Year, Research for Academic Degree Dissertation in Integrated Life Sciences
  16. 2024, Graduate Education (Doctoral Program) , 4Term, Special Lecture on Mathematical and Life Sciences F

Research Activities

Academic Papers

  1. Experimental and theoretical studies on the self-motion of a phenanthroline disk coupled with complex formation, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 12(7), 1557-1563, 2010
  2. Bifurcation of self-motion depending on the reaction order, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 11(7), 1085-1090, 2009
  3. Arnold Tongue of Electrochemical Nonlinear Oscillators, JOURNAL OF PHYSICAL CHEMISTRY A, 113(25), 6876-6879, 20090625
  4. Oscillation in Penetration Distance in a Train of Chemical Pulses Propagating in an Optically Constrained Narrowing Channel, JOURNAL OF PHYSICAL CHEMISTRY A, 113(39), 10405-10409, 20091001
  5. Spontaneous Deformation of an Oil Droplet Induced by the Cooperative Transport of Cationic and Anionic Surfactants through the Interface, JOURNAL OF PHYSICAL CHEMISTRY B, 113(48), 15709-15714, 20091203
  6. Intermittent motion of a camphor float depending on the nature of the float surface on water, COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS, 349(1-3), 74-77, 20091005
  7. Self-Motion of a Camphor Disk on an Aqueous Phase Depending on the Alkyl Chain Length of Sulfate Surfactants, LANGMUIR, 26(4), 2414-2417, 20100216
  8. Mathematical analysis of intercellular calcium propagation induced by adenosine triphosphate, SKIN RESEARCH AND TECHNOLOGY, 16(2), 146-150, 201005
  9. Apex of a V-shaped cut field acts as a pacemaker on an oscillatory system, CHEMICAL PHYSICS LETTERS, 490(4-6), 238-241, 20100426
  10. Mode-Switching of the Self-Motion of a Camphor Boat Depending on the Diffusion Distance of Camphor Molecules, JOURNAL OF PHYSICAL CHEMISTRY C, 114(21), 9876-9882, 20100603
  11. Collective behavior of inanimate boats, PHYSICAL REVIEW E, 81(5), 201005
  12. Self-Motion of a Benzoquinone Disk Coupled with a Redox Reaction, JOURNAL OF PHYSICAL CHEMISTRY C, 114(31), 13340-13343, 20100812
  13. Distinguishing Among Gases with a Semiconductor Sensor Depending on the Frequency Modulation of a Cyclic Temperature, ELECTROANALYSIS, 22(14), 1573-1580, 201007
  14. Phase Wave between Two Oscillators in the Photosensitive Belousov-Zhabotinsky Reaction Depending on the Difference in the Illumination Time, JOURNAL OF PHYSICAL CHEMISTRY A, 114(34), 9124-9129, 20100902
  15. Synchronized motion of the water surfaces around two fixed camphor disks, JOURNAL OF COLLOID AND INTERFACE SCIENCE, 351(1), 299-303, 20101101
  16. Interactions between Sex Hormones and a 1,2-Di-O-myristoyl-sn-glycero-3-phosphocholine Molecular Layer: Characteristics of the Liposome, Surface Area versus Surface Pressure of the Monolayer, and Microscopic Observation, BULLETIN OF THE CHEMICAL SOCIETY OF JAPAN, 84(3), 283-289, 20110315
  17. Localized Bioconvection of Euglena Caused by Phototaxis in the Lateral Direction, JOURNAL OF THE PHYSICAL SOCIETY OF JAPAN, 80(6), 201106
  18. Photoexcited Chemical Wave in the Ruthenium-Catalyzed Belousov-Zhabotinsky Reaction, JOURNAL OF PHYSICAL CHEMISTRY A, 115(26), 7406-7412, 20110707
  19. Mode-selection and mode-switching of an autonomous motor composed of a camphor rotor and a mobile loop, CHEMICAL PHYSICS LETTERS, 514(1-3), 159-163, 20110927
  20. Density wave propagation of a wave train in a closed excitable medium, PHYSICAL REVIEW E, 84(4), 20111005
  21. Arnold tongue of electrochemical nonlinear oscillators, The Journal of Physical Chemistry A, 113, 6876-6879, 20090602
  22. A liquid/liquid interface excited by stimulation with water, Journal of Colloid and Interface Science, 332, 254-257, 20081225
  23. Wave Propagation in the Photosensitive Belousov-Zhabotinsky Reaction across an Asymmetric Gap, The Journal of Physical Chemistry A, 113, 2304-2308, 20090219
  24. Chemical Sensing with Dynamical Nonlinear Information, INTERNATIONAL JOURNAL OF UNCONVENTIONAL COMPUTING, 5(1), 39-52, 20090101
  25. Oscillation of a water surface in contact with a fixed camphor disk, CHEMICAL PHYSICS LETTERS, 457(1-3), 254-258, 20080520
  26. Self-motion of a phenanthroline disk on divalent metal ion aqueous solutions coupled with complex formation, COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS, 324(1-3), 222-227, 20080701
  27. Chemical Sensing with Dynamical Nonlinear Information, INTERNATIONAL JOURNAL OF UNCONVENTIONAL COMPUTING, 5(1), 39-52, 2009
  28. A liquid/liquid interface excited by stimulation with water, JOURNAL OF COLLOID AND INTERFACE SCIENCE, 332(1), 254-257, 20090401
  29. Wave Propagation in the Photosensitive Belousov-Zhabotinsky Reaction Across an Asymmetric Gap, JOURNAL OF PHYSICAL CHEMISTRY A, 113(11), 2304-2308, 20090319
  30. Suppression and Regeneration of Camphor-Driven Marangoni Flow with the Addition of Sodium Dodecyl Sulfate, JOURNAL OF PHYSICAL CHEMISTRY B, 116(3), 992-996, 20120126
  31. Mode Change in the Self-Motion of a Benzoquinone Disk Coupled with a NADPH System, CHEMPHYSCHEM, 13(2), 520-524, 201202
  32. Distinction between alcohols and hydrocarbons with a semiconductor gas sensor depending on the range and frequency of a cyclic temperature, ANALYTICAL METHODS, 4(4), 1126-1131, 201204
  33. Photo-sensitive self-motion of a BQ disk, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 14(17), 5988-5991, 2012
  34. Interaction between a monosaccharide and a phospholipid molecular layer, COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS, 405, 14-18, 20120705
  35. Reciprocating Motion of a Self-Propelled Object on a Molecular Layer, CHEMPHYSCHEM, 13(18), 4129-4133, 20121221
  36. Oscillation of a Polymer Gel Entrained with a Periodic Force, JOURNAL OF PHYSICAL CHEMISTRY B, 117(7), 2215-2220, 20130221
  37. Reciprocating Motion of a Self-Propelled Object on a Molecular Layer with a Local Minimum and a Local Maximum Isotherm, JOURNAL OF PHYSICAL CHEMISTRY C, 117(12), 6346-6352, 20130328
  38. Adhesive force between paired microdroplets coated with lipid monolayers, SOFT MATTER, 9(25), 5891-5897, 2013
  39. Collective motion of symmetric camphor papers in an annular water channel, PHYSICAL REVIEW E, 88(1), 20130730
  40. Chemical Wave Propagation Preserved on an Inhibitory Field in the Ruthenium-Catalyzed Belousov-Zhabotinsky Reaction, JOURNAL OF PHYSICAL CHEMISTRY A, 117(41), 10615-10618, 20131017
  41. Motion with Memory of a Self-Propelled Object, JOURNAL OF PHYSICAL CHEMISTRY C, 117(46), 24490-24495, 20131121
  42. Periodic Reciprocating Motion of a Polymer Gel on an Aqueous Phase Synchronized with the Belousov-Zhabotinsky Reaction, LANGMUIR, 30(2), 517-521, 20140121
  43. Frontiers in epidermal barrier homeostasis - an approach to mathematical modelling of epidermal calcium dynamics, EXPERIMENTAL DERMATOLOGY, 23(2), 79-82, 201402
  44. Mathematical Modeling of Calcium Waves Induced by Mechanical Stimulation in Keratinocytes, PLOS ONE, 9(3), 20140324
  45. Self-propelled Motor Driven by a Glucose Engine, CHEMISTRY LETTERS, 43(4), 453-455, 20140405
  46. Transient Reciprocating Motion of a Self-Propelled Object Controlled by a Molecular Layer of a N-Stearoyl-p-nitroaniline: Dependence on the Temperature of an Aqueous Phase, JOURNAL OF PHYSICAL CHEMISTRY C, 118(27), 14888-14893, 20140710
  47. Mode Switching of a Self-Propelled Camphor Disk Sensitive to the Photoisomerization of a Molecular Layer on Water, LANGMUIR, 30(25), 7353-7357, 20140701
  48. Quantitative Estimation of the Parameters for Self-Motion Driven by Difference in Surface Tension, LANGMUIR, 30(27), 8101-8108, 2014
  49. Marangoni flow around a camphor disk regenerated by the interaction between camphor and sodium dodecyl sulfate molecules, COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS, 466, 40-44, 20150205
  50. Response of a chemical wave to local pulse irradiation in the ruthenium-catalyzed Belousov-Zhabotinsky reaction, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 17(14), 9148-9152, 2015
  51. Spontaneous change in trajectory patterns of a self-propelled oil droplet at the air-surfactant solution interface, PHYSICAL REVIEW E, 91(3), 20150311
  52. Synchronized Intermittent Motion Induced by the Interaction between Camphor Disks, JOURNAL OF THE PHYSICAL SOCIETY OF JAPAN, 84(3), 20150315
  53. Physicochemical design and analysis of self-propelled objects that are characteristically sensitive to environments, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 17(16), 10326-10338, 2015
  54. Characteristic oscillatory motion of a camphor boat sensitive to physicochemical environment, CHAOS, 25(6), 201506
  55. Bifurcation phenomena of two self-propelled camphor disks on an annular field depending on system length, PHYSICAL REVIEW E, 92(2), 20150818
  56. Characteristic responses of a phospholipid molecular layer to polyols, COLLOIDS AND SURFACES B-BIOINTERFACES, 136, 594-599, 20151201
  57. Synchronization of Two Self-Oscillating Gels Based on Chemo-Mechanical Coupling, JOURNAL OF PHYSICAL CHEMISTRY B, 120(11), 2977-2983, 20160324
  58. Periodic Reciprocating Motion of a Polymer Gel on an Aqueous Phase Synchronized with the Belousov-Zhabotinsky Reaction, LANGMUIR, 30(2), 517-521, 2014
  59. Interactions between Sex Hormones and a 1,2-Di-O-myristoyl-sn-glycero-3-phosphocholine Molecular Layer: Characteristics of the Liposome, Surface Area versus Surface Pressure of the Monolayer, and Microscopic Observation, Bull. Chem. Soc. Jpn., 84(3), 283-289, 2011
  60. A liquid/liquid interface excited by stimulation with water., A liquid/liquid interface excited by stimulation with water., 332(1), 2009
  61. Arnold tongue of electrochemical nonlinear oscillators., Arnold tongue of electrochemical nonlinear oscillators., 113(25), 2009
  62. Self-motion of a camphor disk on an aqueous phase depending on the alkyl chain length of sulfate surfactants., Self-motion of a camphor disk on an aqueous phase depending on the alkyl chain length of sulfate surfactants., 26(4), 2010
  63. Phase wave between two oscillators in the photosensitive Belousov-Zhabotinsky reaction depending on the difference in the illumination time., Phase wave between two oscillators in the photosensitive Belousov-Zhabotinsky reaction depending on the difference in the illumination time., 114(34), 2010
  64. Collective behavior of inanimate boats., Collective behavior of inanimate boats., 81(5 Pt 2), 2010
  65. Photoexcited chemical wave in the ruthenium-catalyzed Belousov-Zhabotinsky reaction., Photoexcited chemical wave in the ruthenium-catalyzed Belousov-Zhabotinsky reaction., 115(26), 2011
  66. Suppression and regeneration of camphor-driven Marangoni flow with the addition of sodium dodecyl sulfate., Suppression and regeneration of camphor-driven Marangoni flow with the addition of sodium dodecyl sulfate., 116(3), 2012
  67. Mode change in the self-motion of a benzoquinone disk coupled with a NADPH system., Mode change in the self-motion of a benzoquinone disk coupled with a NADPH system., 13(2), 2012
  68. Photo-sensitive self-motion of a BQ disk., Photo-sensitive self-motion of a BQ disk., 14(17), 2012
  69. Reciprocating motion of a self-propelled object on a molecular layer., Reciprocating motion of a self-propelled object on a molecular layer., 13(18), 2012
  70. Oscillation of a polymer gel entrained with a periodic force., Oscillation of a polymer gel entrained with a periodic force., 117(7), 2013
  71. Collective motion of symmetric camphor papers in an annular water channel., Collective motion of symmetric camphor papers in an annular water channel., 88(1), 2013
  72. Chemical wave propagation preserved on an inhibitory field in the ruthenium-catalyzed Belousov-Zhabotinsky reaction., Chemical wave propagation preserved on an inhibitory field in the ruthenium-catalyzed Belousov-Zhabotinsky reaction., 117(41), 2013
  73. Periodic reciprocating motion of a polymer gel on an aqueous phase synchronized with the Belousov-Zhabotinsky reaction., Periodic reciprocating motion of a polymer gel on an aqueous phase synchronized with the Belousov-Zhabotinsky reaction., 30(2), 2014
  74. Mathematical modeling of calcium waves induced by mechanical stimulation in keratinocytes., Mathematical modeling of calcium waves induced by mechanical stimulation in keratinocytes., 9(3), 2014
  75. Mode switching of a self-propelled camphor disk sensitive to the photoisomerization of a molecular layer on water., Mode switching of a self-propelled camphor disk sensitive to the photoisomerization of a molecular layer on water., 30(25), 2014
  76. Response of a chemical wave to local pulse irradiation in the ruthenium-catalyzed Belousov-Zhabotinsky reaction., Response of a chemical wave to local pulse irradiation in the ruthenium-catalyzed Belousov-Zhabotinsky reaction., 17(14), 2015
  77. Physicochemical design and analysis of self-propelled objects that are characteristically sensitive to environments., Physicochemical design and analysis of self-propelled objects that are characteristically sensitive to environments., 17(16), 2015
  78. Spontaneous change in trajectory patterns of a self-propelled oil droplet at the air-surfactant solution interface., Spontaneous change in trajectory patterns of a self-propelled oil droplet at the air-surfactant solution interface., 91(3), 2015
  79. Self-oscillating Gel Accelerated while Sensing the Shape of an Aqueous Surface, LANGMUIR, 32(16), 3901-3906, 20160426
  80. Acceleration or deceleration of self-motion by the Marangoni effect, CHEMICAL PHYSICS LETTERS, 654, 92-96, 20160616
  81. Ability of sodium dodecyl sulfate to transiently stabilize a phospholipid molecular layer, THIN SOLID FILMS, 615, 215-220, 20160930
  82. Oscillation of Speed of a Self-Propelled Belousov-Zhabotinsky Droplet, JOURNAL OF PHYSICAL CHEMISTRY LETTERS, 7(17), 3424-3428, 20160901
  83. Selection of the Rotation Direction for a Camphor Disk Resulting from Chiral Asymmetry of a Water Chamber, JOURNAL OF PHYSICAL CHEMISTRY B, 120(34), 9166-9172, 20160901
  84. Periodic Oscillatory Motion of a Self-Propelled Motor Driven by Decomposition of H2O2 by Catalase, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 56(3), 861-864, 20170116
  85. Self-inverted reciprocation of an oil droplet on a surfactant solution, SOFT MATTER, 13(18), 3422-3430, 20170514
  86. Relaxation dynamics of the Marangoni convection roll structure induced by camphor concentration gradient, COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS, 520, 436-441, 20170505
  87. Achilles' heel of a traveling pulse subject to a local external stimulus, PHYSICAL REVIEW E, 95(6), 20170612
  88. Characteristic Isotherms for a Mixed Molecular Layer Composed of Phospholipid and Fatty Acid, BULLETIN OF THE CHEMICAL SOCIETY OF JAPAN, 90(7), 801-806, 201707
  89. Unidirectional motion of a camphor disk on water forced by interactions between surface camphor concentration and dynamically changing boundaries, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 19(28), 18767-18772, 20170728
  90. Dynamic Ordering in a Swarm of Floating Droplets Driven by Solutal Marangoni Effect, JOURNAL OF THE PHYSICAL SOCIETY OF JAPAN, 86(10), 20171015
  91. Collective Behavior of Camphor Floats Migrating on the Water Surface, JOURNAL OF THE PHYSICAL SOCIETY OF JAPAN, 86(10), 20171015
  92. Reciprocating Motion of a Self-Propelled Rotor Induced by Forced Halt and Release Operations, JOURNAL OF PHYSICAL CHEMISTRY C, 122(6), 3482-3487, 20180215
  93. Distinguishing the Dynamic Fingerprints of Two- and Three-Dimensional Chemical Waves in Microbeads, JOURNAL OF PHYSICAL CHEMISTRY A, 122(8), 1967-1971, 20180301
  94. Period of Oscillatory Motion of a Camphor Boat Determined by the Dissolution and Diffusion of Camphor Molecules, JOURNAL OF PHYSICAL CHEMISTRY B, 122(9), 2610-2615, 20180308
  95. Characteristic responses of a 1,2-di-myristoyl-sn-glycero-3-phosphocholine molecular layer to polymeric surfactants at an air/water interface, COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS, 546, 163-167, 20180605
  96. Evolution of Self-Propelled Objects: From the Viewpoint of Nonlinear Science, CHEMISTRY-A EUROPEAN JOURNAL, 24(24), 6308-+, 20180425
  97. Synchronization of self-propelled soft pendulums, SOFT MATTER, 14(19), 3791-3798, 20180521
  98. Promotion and inhibition of synchronous glycolytic oscillations in yeast by chitosan, FEBS JOURNAL, 285(14), 2679-2690, 201807

Publications such as books

  1. 2018/11/06, Self-organized Motion: Physicochemical Design based on Nonlinear Dynamics, Royal Society of Chemistry, 2018, 11, Scholarly Book, Cocompilation, English, Satoshi Nakata, Masaharu Nagayama, 978-1-78801-166-2, 371, 1

Invited Lecture, Oral Presentation, Poster Presentation

  1. Self-organized motion under nonequilibrium, Satoshi Nakata, Pacifichem2021, 2021/12/10, Without Invitation, English
  2. Spatio-temporal pattern formation using self-propelled objects, 2021 Silk Road International Conference on the Cooperation and Intergaration of Industry, Education, Research, and Application, 2021/10/29, With Invitation, English, Chinese Universities, Online
  3. Self-organized motion, Satoshi Nakata, ICMMA2021, 2022/01/11, With Invitation, English, Meiji University, Online
  4. Catch and release chemotaxis, Satoshi Nakata, Special Lecture in Magdeburg University, 2019/11/25, With Invitation, English, Magdeburg University, Magdeburg, Germany
  5. Catch and release chemotaxis based on nonlinearity, Satoshi Nakata, Special lecture in Polish Academy of Sciences, 2019/11/25, With Invitation, English, Polish Academy of Sciences, Warsaw, Poland
  6. Spatio-tempral pattern formation using self-propelled objects, Satoshi Nakata, Special Lecture in Capital Normal University, 2019/09/09, With Invitation, English, Capital Normal University, Beijing, China
  7. Characteristic motion of a self-organized object based on nonlinearity, Satoshi Nakata, Special Lecture in Toulose University, 2019/06/26, With Invitation, English, Toulose University, Toulose, France
  8. Self-propelled objects with high autonomy for transportation, Satoshi Nakata, 3rd Edition of Global Conference on Pharmaceutics and Drug Delivery Systems, 2019/06/25, With Invitation, English, 3rd Edition of Global Conference on Pharmaceutics and Drug Delivery Systems, Paris, France
  9. Mode-switching of an autonomous motor, Satoshi Nakata, Gordon Research Conferences, 2012/07/18, With Invitation, English, Gordon Research Conferences, Coby College, ME, USA
  10. Nonlinear phenomena of self-propelled motors, Satoshi Nakata, Dynamics at interfaces, 2014/06/13, With Invitation, English
  11. Nonlinear phenomena of self-propelled motors at an air/water interface, Satoshi Nakata, Gordon Research Conferences Oscillations & Dynamic Instabilities in Chemical Systems, 2014/07/16, Without Invitation, English, Gordon Research Conferences, Girona, Spain
  12. Acceleration or deceleration of the self-motion by the Marangoni, Yui Matsuda, Nobuhiko Suematsu, Hiroyuki Kitahata, Yumihiko Ikura, Satoshi Nakata, Yui Matsuda, Nobuhiko Suematsu, Hiroyuki Kitahata, Yumihiko Ikura, Satoshi Nakata, Gordon Resarch Conferences Oscillations & Dynamic Instabilities in Chemical Systems, 2014/07/16, Without Invitation, English, Gordon Resarch Conferences, Girona, Spain
  13. Spatio-temporal behaviors under nonequilibirum conditions, Satoshi Nakata, Special lecture in National Taipei University of Technology, 2015/03/09, With Invitation, English, National Taipei University of Technology
  14. Spontaneous creation of chemical computing structures based on interfacial interactions, Satoshi Nakata, Special lectture in Poland Academy of Sciences, 2015/08/21, With Invitation, English, Poland Academy of Sciences, Warsaw, Poland
  15. Characteristic motion and mode-bifurcation of a self-propelled motor on water depending on the physico-chemical environment, Miyu Yoshii, Yui Matsuda, Nobuhiko Suematsu, Satoshi Nakata, Miyu Yoshii, Yui Matsuda, Nobuhiko Suematsu, Satoshi Nakata, Pacifichem2015, 2015/12/17, Without Invitation, English, Chemical Society of Japan American Chemical Society, Hawaii, USA
  16. Dynamic responses of an amphiphilic molecular layer to chemical stimuli, Deguchi Ayano, Seki Yota, Fukuhara Koichi, Kumazawa Noriyuki, Nakata Satoshi, Deguchi Ayano, Seki Yota, Fukuhara Koichi, Kumazawa Noriyuki, Nakata Satoshi, Pacifichem2015, 2015/12/17, Without Invitation, English, Chemical Society of Japan American Chemical Society, Hawaii, USA
  17. Spatio-temporal behaviors of self-propelled motors, Satoshi Nakata, An Interdisciplinary Workshop between Nonlinear Science and the Study of Time, 2016/03/26, With Invitation, English, Yamaguchi University, Yamaguchi University
  18. Spatio-Temporal Behaviors of Self-Propelled Motors Characteristically Responsive to the Environments, Satoshi Nakata, Gordon Resarch Conference, 2016/07/19, With Invitation, English, Gordon Resarch Conference, Stoweflake Conference Center Stowe, VT, USA
  19. Spatio-temporal behaviors of self-propelled motors, Satoshi Nakata, An interdisciplinary Workshop between Nonlinear Science and the Study of Time, 2016/03/26, With Invitation, English, Yamaguchi University, Yamaguchi University
  20. Spatio-Temporal Behaviors, Satoshi Nakata, Symposium on Nonlinear Sciences: The History for 30 Years and Vision for The Future, 2016/09/26, With Invitation, English, AIMS, Tokyo
  21. Oscillatory motion of a aself-propelled motor driving by decomposition of H2O2 with catalase, Mio Nomura, Satoshi Nakata, Mio Nomura, Satoshi Nakata, Gordon Research Conference / Oscillations & Dynamic Instabilities in Chemical Systems, 2016/07/17, Without Invitation, English, Gordon Resarcjh Conference, Stoweflake Conference Center Stowe, VT, USA
  22. Characteristic motion of self-propelled soft, Katsuhiko Kayahara, Elliott Ginder, Masharu Nagayama, Hiraku NIshimori, Satoshi Nakata, Katsuhiko Kayahara, Elliott Ginder, Masharu Nagayama, Hiraku NIshimori, Satoshi Nakata, pendulumsInternational conference Patterns and Waves 2016, 2016/08/02, Without Invitation, Japanese, JST, Hokkaido University
  23. Spatio-temporal self-organized motion at an immiscible interface, Satoshi Nakata, 2018/09/06, With Invitation, English, North Minzu University, China, North Minzu University, China
  24. Spatio-temporal self-organized motion at an immiscible interface, Satoshi Nakata, 2018/09/10, With Invitation, English, Zhejiang Sci-tech University , China, Zhejiang Sci-tech University , China

Social Activities

Organizing Academic Conferences, etc.

  1. Pacifichem2015, Organizer of "Self-organization in Chemistry" (#165), 2015/12, 2015/12
  2. Gordon Research Conference, Vice Chair, 2016/07, 2018/07
  3. Gordon Research Conference, Gordon Rsearch Conference, 2018/07, 2020/07
  4. 2018/06, 2018/06

History as Peer Reviews of Academic Papers

  1. 2022, Chemistry Letters, Others, reviewer, 1
  2. 2022, Journal of Molecular Liquids, Others, reviewer, 2
  3. 2022, Journal of Materials Chemistry B, Others, reviewer, 2
  4. 2022, Physical Chemistry Chemical Physics, Others, reviewer, 4
  5. 2022, Colloids and Surfaces A, Others, reviewer, 4
  6. 2022, Chemistry of Materials, Others, reviewer, 1
  7. 2022, Physical Review E, Others, reviewer, 1
  8. 2022, Soft Matter, Others, reviewer, 6
  9. 2022, Nature Communications, Others, reviewer, 2
  10. 2022, IEEE Sensors Journal, Others, reviewer, 3
  11. 2022, Material Science & Engineering C, Others, reviewer, 3
  12. 2022, Materials Today Nano, Others, reviewer, 2
  13. 2022, Chaos, Others, reviewer, 4
  14. 2022, Science Advances, Others, reviewer, 2
  15. 2022, The Journal of Physical Chemistry, Others, reviewer, 4
  16. 2022, Physical Review Rsearch, Others, reviewer, 1
  17. 2022, Chaos, Others, reviewer, 1
  18. 2022, Science Advances, Others, reviewer, 1
  19. 2021, Materials Today Nano, Others, reviewer, 2
  20. 2021, Physical Review E, Others, reviewer, 2
  21. 2021, IEEE Sensors Journal, Others, reviewer, 1
  22. 2021, Scientific Reports, Others, reviewer, 3
  23. 2021, IJMS, Others, reviewer, 1
  24. 2021, Electroanalytical Chemisty, Others, reviewer, 1
  25. 2021, Chemico-Biological Interactions, Others, reviewer, 1
  26. 2021, Langmuir, Others, reviewer, 3
  27. 2021, ACS Omega, Others, reviewer, 2
  28. 2021, Mechatronics, Others, reviewer, 1
  29. 2021, the Journal of the American Chemical Society, Others, 3
  30. 2021, ChemPhotoChem, Others, reviewer, 1
  31. 2021, The Journal of Physical Chemistry, Others, reviewer, 5
  32. 2021, the Journal of Electroanalytical Chemistry, Others, reviewer, 2
  33. 2021, Soft Matter, reviewer, 1
  34. 2020, Journal of Colloid and Interface Science, Others, Review, 1
  35. 2020, Scientific Reports, Others, Review, 1
  36. 2020, ChemPhysChem, Others, Review, 1
  37. 2020, Chemico-Biological Interactions, Others, Review
  38. 2020, Langmuir, Others, Review, 2
  39. 2020, Physical Chemistry Chemical Physics, Others, Review, 2
  40. 2020, Molecules, Others, Review, 1
  41. 2020, Sensors & Actuators: B, Others, Review, 3
  42. 2020, Chemistry Letters, Others, Review, 2
  43. 2020, Colloid and Polymer Science, Others, Review, 2
  44. 2020, Soft Matter, Others, Review, 3
  45. 2020, The Journal of Physical Chemistry, Others, Review, 3
  46. 2020, Vacuum, Others, Review
  47. 2020, Sensors, Others, Review, 2
  48. 2020, Symmetry, Others, Review, 1
  49. 2019, Bulletin of the Chemical Society of Japan, Others, Review, 1
  50. 2019, Nutrients, Others, Review, 2
  51. 2019, Materials Science & Engineering C, Others, Review, 1
  52. 2019, Physical Chemistry Chemical Physics, Others, Review, 2
  53. 2019, Communications Chemistry, Others, Review, 1
  54. 2019, Biomolecules, Others, Review, 1
  55. 2019, ChemSystemsChem, Others, Review, 1
  56. 2019, Langmuir, Others, Review, 2
  57. 2019, ACS Omega, Others, Reviewer, 1
  58. 2019, The Journal of Physical Chemistry A, Chief editor, Reviewer, 1
  59. 2019, Soft Matter, Others, Review, 2
  60. 2019, Chaos, Others, Review, 3
  61. 2019, Chemistry Select, Others, Referee, 1
  62. 2014, Langmuir, Others, Referee, 5
  63. 2014, The Journal of Physical Chemistry, Others, 2
  64. 2014, Chaos, Others, 1
  65. 2014, Colloids and Surfaces B, Others, 2
  66. 2014, Journal of Materials Chemistry, Others, 1
  67. 2014, Journal of Chemical Physics, 1
  68. 2014, Colloids and Surfaces A, Others, 1
  69. 2014, Bulletin Chemical Society of Japan, Others, 1
  70. 2014, Molecules, Others, 1
  71. 2014, CPC, Others, 1
  72. 2015, Langmuir, Others, 3
  73. 2015, The Journal of Physical Chemistry Letters, Others, 1
  74. 2015, The Journal of Physical Chemistry, Others, 5
  75. 2015, Small, Others, 1
  76. 2015, Advanced Functional Materials, Others, 1
  77. 2015, Physica D, Others, 1
  78. 2015, Analytical Chemistry, Others, 2
  79. 2015, Chemistry Letters, Others, 1
  80. 2015, Physical Chemistry Chemical Physics, Others, 1
  81. 2015, Bulletin Chemical Society of Japan, Others, 1
  82. 2015, Colloids and Surfaces B, Others, 1
  83. 2016, The Journal of Physical Chemistry Letters, Others, reviewer, 1
  84. 2016, Physica D, Others, Reviewer, 1
  85. 2016, Langmuir, Others, Reviewer, 6
  86. 2016, The Journal of Physical Chemistry, Others, Reviewer, 2
  87. 2016, Colloids and Surfaces A, Others, Reviewer, 1
  88. 2016, Sensors & Actuators B, Others, Reviewer, 1
  89. 2016, Angewandte Chemie, Others, Reviewer, 1
  90. 2016, Bulletin of the Chemical Society of Japan, Others, Reviewer, 1
  91. 2016, Soft Matter, Others, Reviewer
  92. 2017, The Journal of Physical Chemistry, Others, Referee, 1
  93. 2017, Langmuir, Others, Referee, 3
  94. 2017, Colloids and Surfaces A, Others, Referee, 1
  95. 2017, Journal of Chemical Engineering of Japan, Others, Referee, 1
  96. 2017, Journal of Oleo Science, Others, Referee, 1
  97. 2017, Bulletin Chemical Society of Japan, Others, Referee, 1
  98. 2017, International Journal of Nanomedicine, Others, Referee, 1
  99. 2017, Soft Material, Others, Reviewer, 1
  100. 2017, Nanaoscale, Others, Reviewer, 2
  101. 2017, Journal of Colloid and Interface Science, Others, Reviewer, 1
  102. 2018, Langmuir, Others, Reviewer, 6
  103. 2018, Chemistry Select, Others, Reviewer, 1
  104. 2018, Biomolecules, Others, Reviewer, 1
  105. 2018, The Journal of Physical Chemistry, Others, Reviewer, 3
  106. 2018, Chaos, Others, Reviewer, 1
  107. 2018, Physical Chemistry Chemical Physics, Others, Reviewer, 1
  108. 2018, Soft Matter, Others, Reviewer, 1
  109. 2018, Journal of Chemical Physics, Others, Reviewer, 1
  110. 2018, Molecules, Others, Reviewer, 1