easp 2.36; proghtml 2.37 (C)1999-2015 kawase
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
|---|---|---|---|---|---|
| Hall V, Day 2 | |||||
| (9:00–10:20) (Chair: Adschiri M.) | |||||
| V201 | Preparation of Copper Fine Particles for Low Temperature Sintering and Sintering Proecss | 銅微粒子 ナノフルイド 低温焼結 | F-1 | 66 | |
| V202 | Preparation of Ag nanoparticles based on polyol process and application | Ag nanoparticles preparation polyol process | F-1 | 606 | |
| V203 | Liquid Phase SYnthesis of Transparent Conductive Oxide Nanoparticles with Low Resistivity and their Application to Nano-fluids | Transparent Conductive Oxide Nanoparticle Liquid Phase Synthesis | F-1 | 582 | |
| V204 | Supercritical hydrothermal synthesis of organic modified nanoparticles by flow reactors | supercritical water flow reactor nanoparticles | F-1 | 690 | |
| (10:20–12:00) (Chair: Muramatsu A.) | |||||
| V205 | Development of Nanofluids with Ionic Liquids | nanoparticle ionic liquid interface | F-1 | 93 | |
| V206 | Surface modification toward fabrication of dense suspensions with various combinations of particle species and solvents | Nanoparticle Surface modification Suspension stability | F-1 | 625 | |
| V207 | Numerical modeling of self-propelled particles:Pseudo-phonon like behavior of collective motion | Squirmer Model dynamic structure factor collective motion | F-1 | 611 | |
| V208 | Numerical investigation of the relationship between thermal fluctuation and flow field by using Landau-Lifshitz Navier Stokes equation | Thermal fluctuation Landau-Lifshitz Navier Stokes equation Fluid dynamics | F-1 | 388 | |
| V209 | Development of a continuous process for floccurated nanoparticle re-dispersion under high shear stress | Nanoparticle re-dispersion High shear stress Floccurated nanoparticle | F-1 | 276 | |
| (13:00–14:20) (Chair: Takami S.) | |||||
| V213 | Acid-base interaction between particles and polymers and dipsersion behavior in organic solvents | F-1 | 910 | ||
| V214 | Effect of Solvent on Classification Property of ZnS Nanoparticles by Size-Selective Precipitation Method | Size-selective precipitation Zinc Sulfide nanoparticles Particle size distribution | F-1 | 497 | |
| V215 | Size-selective separation of particles in suspensions with ultrasonic atomization | ultrasonic atomization suspension particle separation | F-1 | 703 | |
| V216 | Order Formation of Colloidal Particles by Convective Self-Assembly | Convective Self-Assembly Meniscus Patterned Structures | F-1 | 516 | |
| (14:20–16:00) (Chair: Kanie K.) | |||||
| V217 | Study of Influential Factors in Formation of Silver Nanowire Percolation Network Fablicated by Coating Processes. | Silver Nanowire Transparent Conductive Film Coating Process | F-1 | 898 | |
| V218 | Stress oscillation mode in particle-polymer suspensions | suspension shear stress oscillation | F-1 | 393 | |
| V219 | Properties and application of nanofluid comprising surface-modified metal oxide nanoparticles | surface modification metal oxide nanoparticles viscosity | F-1 | 542 | |
| V220 | Formation of organic nano particle in liquid-droplet flow by supercritical anti-solvent method | Supercritical SEDS Nanoparticle | F-1 | 637 | |
| V221 | Development of high-strength resin material by the use of talc with mechanochemical surface treatment | Surface modification high strength resin mechanochemical | F-1 | 706 | |
| (16:00–17:00) (Chair: Adschiri M., Muramatsu A.) | |||||
| V222 | Expectations of nano-fluid in the coating process by supercritical carbon dioxide | nano-fluid supercritical carbon dioxide the coating process | F-1 | 696 | |
| V223 | Technical issue and expectations of nano-fluid in the paint application | hard coating market | F-1 | 822 | |
| General discussion | |||||
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