easp 2.34; proghtml 2.34 (C)1999-2014 kawase
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
|---|---|---|---|---|---|
| Symposium <Progress in Advanced Powder and Particle Process Technology -Particle design, Functinalization, Measurement, Characterization and Unit operation-> | |||||
| (10:00–11:00) (Chair: Nomura T.) | |||||
| A204 | Influence of ion species absorbed on particle surface in aggregation phenomena of colloid. | absorbed layer aggregation phenomena ion species | S-21 | 904 | |
| A205 | Evaluation of interaction force in high viscous polymer solution by colloid probe AFM method | Colloid probe AFM Polymer solution Interaction force | S-21 | 256 | |
| A206 | Direct Measurement of Solvophobic Attraction between Modified Silica Surfaces by Colloid Probe Atomic Force Microscopy | solvophobic attraction AFM modified Silica | S-21 | 944 | |
| (11:00–12:00) (Chair: Ishida N.) | |||||
| A207 | Measurement of living E. coli adhesion force using colloidal probe AFM technique | AFM adhesion force bacteria | S-21 | 56 | |
| A208 | Adhesion and internalization of polymer nanoparticles toward yeast | Yeast PSL colloidal behavior | S-21 | 57 | |
| A209 | Rheological characteristics of composed natural polysaccharides | Polysaccharide Rheology Gel | S-21 | 756 | |
| (13:00–14:20) (Chair: Ogi T.) | |||||
| A213 | Particle classification performance by use of electrostatic potential | Classification Electrical force Particle Separation | S-21 | 558 | |
| A214 | Investigation for mechanism of compression-speed dependence of tablet strength formed by nanoparticles | tablet strength compression-speed nanoparticles | S-21 | 346 | |
| A215 | Quantification method for the force acting on a nanoparticle agglomerate during mixing operation | quantification method nanoparticle mixing | S-21 | 340 | |
| A216 | Fragmentation of nanoparticle agglomerates by collisions | Nanoparticles Fragmentation Agglomerates | S-21 | 277 | |
| (14:20–15:40) (Chair: Taniguchi I.) | |||||
| A217 | Synthesis of metal oxide nanoparticles in a flame reactor | Nanoparticles Flame Reactor Metal Oxide | S-21 | 316 | |
| A218 | Visualization of particle behavior in plasma reactor | plasma-enhanced chemical vapor deposition dust generation contamination control | S-21 | 318 | |
| A219 | Preparation of visible light absorption enhanced TiO2 by atmospheric pressure water vapor plasma | photocatalyst SPCP reactor non-thermal plasma | S-21 | 736 | |
| A220 | Solid-phase coating of iron particles with the copper oxide particles generated by Ultrasonic Spray Pyrolysis. (Graduate School of Muroran Inst. Tech.) Ito Fuyuki, | ultrasonic spray pyrolisis coating planetary ball mill | S-21 | 264 | |
| (15:40–16:40) (Chair: Okada Y.) | |||||
| A221 | Synthesis of Manganese oxides and their structure and morphology control | Manganese oxides Spray pyrolysis Morphology control | S-21 | 491 | |
| A222 | Hydrothermal synthesis of organic-modified TiO2 nanocrystals and control in their crystal structure | TiO2 hydrothermal synthesis nanocrystals | S-21 | 701 | |
| A223 | Fabrication of Mg-LHS and its chmical heat storage property | Layered hydroxide salt chemical heat storage Mg(OH)2 | S-21 | 952 | |
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