easp 2.47; proghtml 2.42 (C)1999-2018 kawase
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
|---|---|---|---|---|---|
| Hall E | |||||
| (14:20–15:44) (Chair: Tatsuo Maruyama, Mikio Ito) | |||||
| E26 | Free energy analysis of gate adsorption of C2 hydrocarbons on flexible metal-organic frameworks | metal-organic framework gate adsorption free energy analysis | 12-a | 308 | |
| E27 | Viscous Behavior of Slurry of Porous Hollow Silica Particles | slurry Rheology Porous hollow silica capsules | 12-l | 180 | |
| E28 | Continuous crystallization of L-glutamic acid using vortex flow by oscillatory flow | Continuous crystallizer Oscillatory flow Vortex | 12-g | 181 | |
| E29 | Photo-adhesion with a bi-functional monomer containing a dipyridyldisulfide moiety | Dipyridyldisulfide Photo-adhesion Recrystallization | 12-j | 7 | |
| E30 | Fundamental Study on Photo-Electrochemical Properties of An Oxide Nanoparticle through Photocatalytic Reactions. | Nanoparticles Photocatalytic Reaction Photo-electrochemical Properties | 12-d | 140 | |
| E31 | Depth of penetration evaluation of organic acids into epoxy resin for sewer lining using infrared spectroscopy | sewage organic acids infrared spectroscopy | 12-m | 301 | |
| E32 | Chemical recycling of copper-clad laminates by nitric acid decomposition method | printed circuit board epoxy Chemical recycling | 13-e | 178 | |
| Hall F | |||||
| (9:30–10:42) (Chair: Hirohisa Uchida, Shogo Taguchi) | |||||
| F01 | Introduction of functional groups into polymer micelles by copolymerization of amphiphilic macromonomer and comonomer | macromonomer polymeric micelle copolymerization | 12-c | 92 | |
| F02 | Improvement of low initiator efficiency and conversion in graft polymerization using the azo group of polymer particles | Graft polymerization Azo group Initiator efficiency | 12-c | 88 | |
| F03 | Dispersion behavior of surface-modified zeolite nanoparticles in polymers | nanocomposite surface-modification dispersity | 12-j | 186 | |
| F04 | Fabrication of lipid coated magnetic nanoparticles for cancer therapy | magnetic nanoparticles lipid coating cell uptake | 12-c | 70 | |
| F05 | Glass structure and luminescence properties of Cu+, Sn2+ -doped phosohate glass prepared by using melt quenching method | Melt quenching method Phosphate glass Luminecent glass | 12-k | 137 | |
| F06 | Fabrication of IPN composites by chitosan from red rice prawn and PHEMA | Chiosan PHEMA IPN | 12-j | 225 | |
| (10:50–12:02) (Chair: Keishi Suga, Takaichi Watanabe) | |||||
| F08 | Effects of Substrate Temperatures on the Production of Tetracene Thin Films by Rapid Expansion of Supercritical Solutions (RESS) Using CO2 | RESS Tetracene thin films Substrate temperature effects | 12-g | 150 | |
| F09 | Effects of Cleaning of Substrate Surfaces on the Deposition of TIPS-Pentacene Thin Films by Spin Coating Technique | Spin coating Thin films deposition Substrate surface cleaning | 12-h | 149 | |
| F10 | Evaluation of Spray Solution Properties in the Production of Caffeine Microparticles by Spray Drying Technique Using Supercritical CO2 | Supercritical CO2 Spray drying Caffeine micronization | 8-e | 229 | |
| F11 | Relationship between deformation of a nanoparticle dispersion droplet during drying and morphology of thin film | marangoni flow morphology deformation | 2-a | 232 | |
| F12 | Consideration of seismic resistance of simple model by position of brace | seismic resistance brace simple model | 10-c | 265 | |
| F13 | Effect on the foamability of sodium lauryl sulfate water solution by adding sodium cholate | Surfactant Foamability Surface tension | 12-a | 107 | |
| (13:00–14:12) (Chair: Toshinori Makuta, Shuji Hironaka) | |||||
| F19 | Hydrolysis of amide bonds using self-assembling peptides | Peptide Self-assembly Degradation | 12-i | 69 | |
| F20 | Adhesion of an acryl film to a glass substrate utilizing the Cu-free click reaction | Click chemistry Polymer coating Adhesion | 12-a | 68 | |
| F21 | Morphology change of gold nanoparticles immobilized on an amino group-displayed plastic substrate | gold nanoparticles surface functionalization dip-coating | 12-h | 27 | |
| F22 | Research on efficient method to improve surface-enhanced infrared absorption efficiency of gold thin films prepared by wet process | SEIRAS Electroless plating Electrochemical oxidation-reduction process | 12-k | 93 | |
| F23 | Synthesis and Bioactive Evaluation of CaO-P2O5/P2O5 Type Glass Composites by Chelate Gel Method | Biomaterials Phosphate Glass Simulated Body Fluid (SBF) Test | 12-k | 76 | |
| F24 | Effect of Synthetic Method on Thermal Stability of P-doped Anatase-type TiO2 | Titanium Dioxide Biomaterials Polymerizable Complex Method | 12-k | 75 | |
| (14:20–15:44) (Chair: Masahiro Yasuda, Daisuke Nagao) | |||||
| F26 | Fading of color alumite | Pigment Alumite Ultraviolet rays | 1-e | 252 | |
| F27 | Development of fabrication method for hollow silica particles using ultrasonically generated microbubbles | Hollow nanoparticles Microbubbles Ultrasonic oscillation | 12-d | 244 | |
| F28 | Development of sugar alcohol microcapsules for thermal storage and effect of ultrasonic amplitude on the microcapsule size | Ultrasound Sugar alcohol | 12-f | 206 | |
| F29 | Preparation of Structural Color fibers Using microchannel wet spinning process | Silica particles CNT Wet spinning | 12-j | 213 | |
| F30 | Elucidation of the effect of Hansen solubility parameter on gel formation and strength | Hansen solubility parameter Gel Rheology | 12-e | 203 | |
| F31 | Rheological and microscopic analysis of capillary suspension with plate-shaped particles | capillary suspension rheology plate-shaped particle | 2-f | 294 | |
| F32 | Production of W/O emulsion by direct membrane emulsification method using Shirasu porous glass | Emulsion Shirasu porous glass Membrane emulsification | 12-b | 208 | |
| Hall G | |||||
| (9:30–10:42) (Chair: Noriko Yamauchi, Yasukazu Kobayashi) | |||||
| G01 | Investigation of partial nitrification process using copolymerized porous gel | nitrification gel AOB | 12-e | 296 | |
| G02 | Preparation and Acid Catalytic Properties of Heteropoly Acid and Polymer Gel Composites | Hetero poly acid gel catalyst | 12-e | 295 | |
| G03 | Preparation of non-spherical alginate hydrogel particles using a microfluidic device | Microfluidics Alginate hydrogel Non-spherical particle | 12-c | 77 | |
| G04 | Mathematical Analysis of Gel Material by Means of the Discrete Element Method | Discrete Element Method Gel Stress-strain curve | 12-l | 189 | |
| G05 | Pseudo starliht¡¡&12316;Insulation material&12316; (Shimane Pref. MASUDA Senior H.S.) *Suewaka Rijkuto, | Pseudo starliht | 12-m | 304 | |
| G06 | Using an adsorbent for pencil leads | adsorbent pencil | 12-c | 307 | |
| (10:50–12:02) (Chair: Takehiko Gotoh, Shuntaro Amari) | |||||
| G08 | Characterization of self-assembled property of phospholipid/diacetylene molecular assembly | diacetylene molecular assembly | 12-i | 10 | |
| G09 | Corss-linking reaction of bis-functional epoxide derived from limonene oxide using polyhydric carboxylic acid | limonene oxide network polymers bio-based materials | 12-j | 9 | |
| G10 | Preparation of sugar chain-immobilized fluorescent polymer particles and evaluation of their virus detection ability | PMMA particle sugar-chain virus detection | 12-c | 200 | |
| G11 | Sugar-chain immobilized fluorescent polymer particles for high precision detection of viruses | nanoparticle fluorescent sugar | 12-c | 199 | |
| G12 | Ensuring brighter lighting using the Tyndall phenomenon | Tyndall phenomenon lighting Colloidal particles | 12-b | 12 | |
| G13 | Development of Spin-coater equipped with an embedded system (Kyoto Municipal Kyotokogakuin H.S.) *Yamanaka Kaiki, | Spin-coater embedded system | 12-h | 316 | |
| (13:00–14:12) (Chair: Haruyuki Ishii, Daisuke Saeki) | |||||
| G19 | Controlling the Number of Organic Crystalline Particles Using Heterogeneous Interface as a Template Crystallization Field | Template Crystallization Number of Crystals Organic Crystalline Particles | 12-g | 113 | |
| G20 | Study on continuous industrial crystallization | Sodium Sulfate Industrial Crystallization Purity | 12-g | 62 | |
| G21 | Effect of pressure on charge/discharge cycle of rechargeable AirZn battery | AirZn battery High-pressure Crystallization | 12-g | 63 | |
| G22 | Study on surface area of metals in chemical reactions | surface area aluminium | 12-m | 28 | |
| G23 | Effect of light scattering layer on the amount of TiO2 in DSSC (Kyoto Municipal Kyotokogakuin H.S.) *Toda Satoshi, | DSSC TiO2 photo | 12-d | 312 | |
| G24 | Sb2S3 by Hydrothermal Synthesis~The factor of growing giant stibnite crystals from Ichinokawa mine ~¡ÈGiant Druse Hypothesis¡É | stibnite crystal growth druse | 12-g | 32 | |
| (14:20–15:44) (Chair: Kouji Maeda, Hisatoyo Morinaga) | |||||
| G26 | Observation of the behaver of non-spherical vesicles with cationic surfactant under the acidic pH gradient | vesicle active matter soft matter | 12-i | 146 | |
| G27 | Behavior of cationic surfactant and ¡Èwater-in-water droplets¡É prepared by two types of polymer solutions under pH gradient | active matter interfacial tension pH-dependent | 12-i | 24 | |
| G28 | Preparation of hydrophilic and hydrophobic janus particle for the purpose of designing active matter | active matter janus particle | 12-c | 138 | |
| G29 | Morphology control of mesoporous silica particles by using anionic surfactant template | mesoporous silica hollow silica particles anionic surfactant | 12-d | 151 | |
| G30 | Time-course evaluation of reaction products obtained from enzymatic polymerization of electro-conductive polyaniline | laccase vesicle polyaniline emeraldine salt | 12-k | 263 | |
| G31 | Research on the mechanism of strong scale and how to inhibit it | scale silicate layer | 12-g | 73 | |
| G32 | Interplay between polymer structure and pressure-induced phase transition of low-temperature processable polymers | block copolymer pressure phase transition | 12-j | 124 | |
| Hall H | |||||
| (9:42–10:42) (Chair: Koichi Shigeno, Takafumi Horie) | |||||
| H02 | Effect of cholesterol on nanoparticle translocation across cell membrane | Nanoparticle Cell membrane Cholesterol | 12-i | 143 | |
| H03 | Preparation of alginate nanoparticles immobilizing rifampicin and evaluation for controlled release media | contralled release nanoparticles rifampicin | 12-d | 239 | |
| H04 | Relationship between surface structure and function for morphology-controlled metal oxide nanoparticles | supercritical water Oxygen Evolution Reaction electrochemical | 12-d | 139 | |
| H05 | Search for optimized material to shield cosmic rays | cosmic ray Geant4 shielding | 10-c | 145 | |
| H06 | Fundamental research about the chemical property of sodium silicate solution, the inquiry into the practical use of it as WATER STOP. | Waterglass silica gel sodium silicate solution | 12-e | 144 | |
| (10:50–12:02) (Chair: Takaaki Tomai, Daisuke Nagao) | |||||
| H08 | Understanding of formation mechanism of gold nanoparticles prepared with organic compounds as reductants | gold nanoparticles formation mechanism Frens method | 12-d | 147 | |
| H09 | Preparation of Pickering emulsions by silver nanoparticles | silver nanoparticle Pickering emulsion | 12-b | 169 | |
| H10 | Production conditions of bacterial cellulose by acetic acid bacteria in liquid marbles of stearate microparticles | bacterial cellulose liquid marble stearate | 12-a | 165 | |
| H11 | Properties of bacterial cellulose produced by acetic acid bacteria in liquid marbles of stearate microparticles | bacterial cellulose liquid marble stearate | 12-a | 163 | |
| H12 | Comparing granite and false rock in reaction part of downsized Tatara furnace | Tatara false rock slag | 12-k | 159 | |
| H13 | (canceled) | 100 | 320 | ||
| (13:00–14:12) (Chair: Tomoya Konishi, Masatoshi Kubouchi) | |||||
| H19 | Particle formation mechanism of sulfide-based solid electrolyte via liquid-phase synthesis | all-solid-state battery solid electrolyte liquid-phase synthesis | 12-c | 42 | |
| H20 | Effect of Additives on Thermoelectric Properties of Cu-Ti-Nb-O Type Quadruple Perovskite Oxides | Quadruple Perovskite Oxide Sintering Thermoelectric Materials | 12-k | 71 | |
| H21 | Transition of Interlayer Distance in Cobalt Layered Compounds by Addition of Ammonium Persulphate | Cobalt Layered Compounds Thermoelectric Materials Oxidizing Agent | 12-k | 74 | |
| H22 | Save the earth | Cellulose acetate Microplastics Waste wood | 12-j | 65 | |
| H23 | Easy way to determine surface tension | surface tension surfactant | 14-e | 317 | |
| H24 | Factors that influence the shock absorption of slime | slime guar gum gel | 14-e | 318 | |
| (14:20–15:44) (Chair: Kazumitu Naoe, Kenta Morita) | |||||
| H26 | Synthesis of carbon-coated Li4Ti5O12 nanoparticles | Li4Ti5O12 nanoparticles Carbon coating Electrode materials | 12-d | 267 | |
| H27 | Hydrothermal synthesis and surface modification of Er3+NaYF4 nanophosphor and the effects on emision properties | Hydrothermal synthesis Nanophosphor NaYF$4$ | 12-d | 264 | |
| H28 | Development of fine MTA cement by using spray drying | Calcium Silicate Cement Spray drying Calcination | 12-c | 136 | |
| H29 | Effect of temperature on antioxidant capacity in hydrothermal treatment of strawberry leaf | hydrothermal strawberry leaf antioxidants | 8-d | 119 | |
| H30 | Kinetics of hydrothermal extraction of useful components from green coffee beans | hydrothermal extraction coffee beans chlorogenic acid | 8-c | 50 | |
| H31 | Study for nano-particle synthesis process during microwave irradiation by surfactant addition | Nano-particle Microwave Surfactant | 12-d | 116 | |
| H32 | Suggestion of safe manufacturing method of Hitachi Karami brick | Karami Hitachi Mine Casting | 12-m | 321 | |
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