AKIHISA MIYAGAWA

Last Updated :2025/06/17

Affiliations, Positions
Graduate School of Advanced Science and Engineering, Assistant Professor
E-mail
miyagawaakihiroshima-u.ac.jp

Basic Information

Research Fields

  • Chemistry;Applied chemistry;Analytical chemistry

Research Keywords

  • Trace analysis Physical field Particle trapping Zeta potential Ultrasound Molecular crowding

Educational Activity

Course in Charge

  1. 2025, Liberal Arts Education Program1, 3Term, Experimental Methods and Laboratory Work in Chemistry I
  2. 2025, Liberal Arts Education Program1, 4Term, Experimental Methods and Laboratory Work in Chemistry II
  3. 2025, Undergraduate Education, First Semester, Special Study for Graduation
  4. 2025, Undergraduate Education, Second Semester, Special Study for Graduation
  5. 2025, Undergraduate Education, First Semester, Chemical Experiments I
  6. 2025, Undergraduate Education, Second Semester, Chemical Experiments II

Research Activities

Academic Papers

  1. Detection Scheme of Arginine as Aptamer Target Based on Particle Dissociation in Coupled Acoustic-Gravitational Field, Analytical Sciences, 2025
  2. Intraparticle Diffusion of Proteins in Diol Group-Functionalized Porous Silica Particle Revealed by Fluorescence Correlation Spectroscopy, Analytical Sciences, 2025
  3. Biosensing Strategies Based on Particle Behavior, Chemosensors, 11, 172, 2023
  4. Particle Manipulation with External Field; from Recent Advancement to Perspectives, Analytical Sciences, 37, 69-78, 2021
  5. Amplification sensing manipulated by a sumanene-based supramolecular polymer as a dynamic allosteric effector, Scientific Report, 14, 12534, 2024
  6. Probing the interaction between biomolecules under sub-zero temperature conditions by electrophoresis in ice grain boundaries., Analytical Chimica Acta, 1311, 342713, 2024
  7. Acid dissociation constant of bis(2-ethylhexyl) hydrogen phosphate impregnated in a polymer layer coated on silica microparticles, The Bulletin of Chemistry Society of Japan, 95, 566-568, 2022
  8. Zeptomole detection of DNA based on microparticle dissociation from a glass plate in a combined acoustic-gravitational field., Talanta, 238, 123042, 2022
  9. Acid dissociation under hydrostatic pressure: structural implications for volumetric parameters, Journal of Molecular Liquids, 328, 115512, 2021
  10. Space Size Dependent Transformation of Tetraphenylethylene Carboxylate Aggregates by Ice-Confinement, The Journal of Physical Chemistry B, 124, 2209-2217, 2020
  11. Growth and Morphology of Liquid Phase in Frozen Aqueous NaCl Probed by Voltammetry and Simulations, ChemPhysChem, 19, 3150-3157, 2018
  12. Multiple MicroRNA Quantification Based on Acoustic Levitation of Single Microspheres after One-Pot Sandwich Interparticle Hybridizations, Analytical Chemistry, 90, 13729-13735, 2018
  13. Detection of Microsphere Surface Reaction Using Acoustic-Gravity Field, Proceeding of Acoustofluidics 2017, 2017, 66-66, 2017
  14. ★, Zeptomole Detection Scheme Based on Levitation Coordinate Measurements of a Single Microparticle in a Coupled Acoustic-Gravitational Field, Analytical Chemistry, 90, 2310-2316, 2018
  15. Zeptomole Biosensing of DNA with Flexible Selectivity Based on Acoustic Levitation of a Single Microsphere Binding Gold Nanoparticles by Hybridization, ACS Sensors, 3, 1870-1875, 2018
  16. Aptamer-Based Sensing of Small Organic Molecules by Measuring Levitation Coordinate of Single Microsphere in combined Acoustic-Gravitational Field, ACS Omega, 5, 3542-3549, 2020
  17. ★, Multiphase Behavior of Tetraphenylethylene Derivatives with Different Polarities at High Pressures, The Journal of Physical Chemistry B, 124, 7263-7271, 2020
  18. Hydrostatic-Pressure-Controlled Molecular Recognition: A Steroid Sensing Case Using Modified Cyclodextrin, ChemPhotoChem, 5, 118-122, 2021
  19. Freeze Control of Nanoparticle Aggregation and Exploration as Surface Enhanced Raman Scattering (SERS) Platform, ChemNanoChem, 7, 434-438, 2021
  20. Acoustic Sensing Based on Density Shift of Microspheres by Surface Binding of Gold nanoparticles, Analytical Sciences, 33, 939-944, 2017
  21. Hydrostatic Pressure-Induced Spectral Variation of Reichardt's Dye: A Polarity/Pressure Dual Indicator, ACS Omega, 5, 897-903, 2020
  22. Kinetic Analysis of the Mass Transfer of Zinc Myoglobin in a Single Mesoporous Silica Particle by Confocal Fluorescence Microspectroscopy, Langmuir, 37, 12697-12704, 2021
  23. Hydrostatic Pressure-Regulated Cellular Calcium Responses, Langmuir, 37, 820-826, 2021
  24. Effect of Molecular Crowding on Complexation of Metal Ions and 8-Quinolinol-5-Sulfonic Acid., The Journal of Physical Chemistry B, 125, 9853-9859, 2021
  25. Kinetically revealed transfer mechanism of europium (III) in tributyl phosphate microdroplet/NaNO3 aqueous solution system by fluorescence microspectroscopy, Journal of Molecular Liquids, 352, 118757, 2022
  26. ★, Direct Quantification of Proteins Modified on a Polystyrene Microparticle Surface Based on  Potential Change, Analytical Chemistry, 94, 6304-6310, 2022
  27. Kinetics and mechanism of Eu(III) transfer in tributyl phosphate microdroplet/HNO3 aqueous solution system revealed by fluorescence microspectroscopy, Analytical Sciences, 38, 955-961, 2022
  28. Acid Dissociation Behavior of 8-Hydroxyquinoline-5-Sulfonic Acid in Molecular Crowding Environment Modeled Using Polyethylene Glycol., Journal of Molecular Liquids, 360, 119526, 2022
  29. Distribution Behavior of Single-Stranded DNA Molecules in an Amino-Group-Functionalized Silica Microparticle, Langmuir, 38, 8462-8468, 2022
  30. J-aggregation of 5, 10, 15, 20-tetraphenyl-21H, 23H-porphinetetrasulfonic acid in a molecular crowding environment simulated using dextran, Analytical Sciences, 38, 1505-1512, 2022
  31. Semi-quantification of the binding constant based on bond breaking in a combined acoustic–gravitational field, Analyst, 147, 4735-4738, 2022
  32. Two-Step Modification of Proteins onto Microparticle Surface Using DMT-MM Condensation Agent, The Bulletin of Chemistry Society of Japan, 96, 95-97, 2023
  33. Thermodynamic complexation mechanism of zinc ion with 8-hydroxyquinoline-5-sulfonic acid in molecular crowding environment., Journal of Molecular Liquids, 372, 1121181, 2023
  34. Kinetic Mass Transfer Behavior of Eu(III) in Nitrilotriacetamide-Impregnated Polymer-Coated Silica Particle., The Bulletin of Chemistry Society of Japan, 96, 671-676, 2023
  35. Effects of Single-Stranded DNA Base Number and Duplex DNA Formation on Intraparticle Diffusion Behavior, The Bulletin of Chemistry Society of Japan, 96, 989-994, 2023
  36. Pore Size Dependence of Mass Transfer of Zinc Myoglobin in a Single Mesoporous Silica Particle, Langmuir, 39, 11329-11336, 2023
  37. Investigating hydrophobic environment in alkyl-group-functionalized silica particle with various chain lengths using absorption microspectroscopy, Analytical Sciences, 40, 93-99, 2024
  38. Competitive Distribution of Europium and Samarium Based on Reaction Rate-Limiting Process in Nitrilotriacetamide Extractant-Impregnated Polymer-Coated Silica Particles, The Bulletin of Chemistry Society of Japan, 96, 1019-1025, 2023
  39. Biosensing of DNA through difference in interaction between microparticle and glass plate based on particle dissociation in a coupled acoustic-gravitational field, Talanta, 273, 125925, 2024
  40. Kinetic analysis of mass transfer of Eu(III) in extractant-impregnated polymer-layered silica particle in multiple-ion distribution system, Analytical Sciences, 40, 347-352, 2024
  41. Molecular crowding effect in Hantzch pyridine synthesis in polyethylene glycol aqueous solution, Physical Chemistry Chemical Physics, 26, 5615-5620, 2024
  42. Kinetic detection of hydrogen peroxide in single horseradish peroxidase-concentrated silica particle using confocal fluorescence microspectroscopic measurement, Talanta, 273, 125925, 2024
  43. Evolution of myoglobin diffusion mechanisms: exploring pore and surface diffusion in a single silica particle., Analytical Sciences, 40, 1545-1551, 2024
  44. Dynamic Interfacial Tension Measurement for the Kinetic Study of Eu(III) Extraction in the NaNO3/Tributyl Phosphate System Based on an Increase in Interfacial Tension., Langmuir, 40, 8645-8653, 2024
  45. Diffusion behavior of rhodamine 6G in single octadecylsilyl-functionalized silica particle revealed by fluorescence correlation spectroscopy., Analytical Sciences, 40, 1561-1567, 2024
  46. Chelate extraction of metal ions in aqueous/chloroform system based on molecular crowding environment., The Bulletin of Chemistry Society of Japan, 97, uoae064, 2024
  47. Effect of Organic Solvent on the Mass Transfer Mechanism of Coumarin 102 in a Single Octadecylsilyl Silica Gel/Organic Solvent-Water System by Laser Trapping and Fluorescence Microspectroscopy, Langmuir, 40, 14303-14310, 2024
  48. DNA sensing based on aggregation of Janus particles using dynamic light scattering, Analytical Chimica Acta, 1318, 342933, 2024
  49. Orientation of Antibody Modified and Reacted on Carboxy-Functionalized Polystyrene Particle Revealed by Zeta Potential Measurement, Analytical Chemistry, 96, 14265-14273, 2024
  50. Temperature Dependence of Intraparticle Diffusion of Coumarin in Single Octadecylsilyl-Functionalized Silica Particle Revealed by Fluorescence Microspectroscopy., The Bulletin of Chemistry Society of Japan, 97, uoae127, 2024
  51. Intraparticle Diffusion Behavior of Rhodamine 6G in Single Silica Particle Revealed by Fluorescence Correlation Spectroscopy., Langmuir, 41, 4076-4083, 2025
  52. Protein Adsorption on Carboxy-Functionalized Microparticles Revealed by Zeta Potential and Absorption Spectroscopy Measurements, Analytical Chemistry, 96, 759-765, 2023
  53. Eu(III) transfer in single N,N,N,N-tetraoctyldiglycolamide-impregnated polymer-coated silica particle using fluorescence microspectroscopy: transfer mechanism and effect of polymer crosslinking degreeParticle., Analytical Sciences, 39, 1929-1936, 2023
  54. Coumarin-Derivatives Diffusion in Single Octadecylsilyl-Functionalized Silica Particle Observed by Fluorescence Correlation Spectroscopy, The Bulletin of Chemistry Society of Japan, 98, uoaf038, 202505