Hideto Matsuyama focuses on Membrane, Chemical engineering, Polymer chemistry, Chromatography and Polymer. Facilitated diffusion, Hollow fiber membrane, Permeation, Membrane fouling and Semipermeable membrane are the core of his Membrane study. His Chemical engineering research incorporates elements of Porosity, Permeability, Synthetic membrane and Diluent.
His Polymer chemistry study combines topics in areas such as Cellulose acetate, Methyl methacrylate, Polymerization, Solvent and Membrane structure. The Chromatography study combines topics in areas such as Amino acid, Phase diagram, Ionic liquid, Interfacial polymerization and Diffusion. The various areas that Hideto Matsuyama examines in his Polymer study include Evaporation, Crystallization and Polyethylene.
Hideto Matsuyama mainly investigates Membrane, Chemical engineering, Polymer chemistry, Chromatography and Polymer. Permeation, Hollow fiber membrane, Facilitated diffusion, Biofouling and Fouling are subfields of Membrane in which his conducts study. His Chemical engineering research is multidisciplinary, incorporating elements of Forward osmosis, Fiber, Permeability, Ionic liquid and Permeance.
His work deals with themes such as Copolymer, Polymerization, Ethylene glycol, Diluent and Vinyl alcohol, which intersect with Polymer chemistry. His Chromatography research includes themes of Reverse osmosis and Aqueous solution. His Polymer study incorporates themes from Crystallization and Solvent.
Membrane, Chemical engineering, Biofouling, Fouling and Forward osmosis are his primary areas of study. His research integrates issues of Fiber and Polyamide in his study of Membrane. His Chemical engineering study combines topics from a wide range of disciplines, such as Reverse osmosis, Thin-film composite membrane, Polymer, Layer and Ionic liquid.
His studies deal with areas such as Copolymer, Methacrylate, Surface modification, Contact angle and Adsorption as well as Biofouling. His study in the fields of Membrane fouling under the domain of Fouling overlaps with other disciplines such as Humic acid. His research on Forward osmosis also deals with topics like
Hideto Matsuyama mostly deals with Membrane, Chemical engineering, Biofouling, Permeance and Polyamide. His work carried out in the field of Membrane brings together such families of science as Layer and Graphene. The Chemical engineering study combines topics in areas such as Methacrylate, Polyketone and Polymer.
Hideto Matsuyama combines subjects such as Ultrafiltration, Surface modification and Adsorption with his study of Biofouling. As part of one scientific family, Hideto Matsuyama deals mainly with the area of Permeance, narrowing it down to issues related to the Metal-organic framework, and often Methyl methacrylate, Water treatment, Dissolution and Microstructure. His research in Polyamide tackles topics such as Reverse osmosis which are related to areas like Evaporation, Scientific method, Cationic polymerization, Protein adsorption and Quaternary ammonium cation.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
CO2 separation facilitated by task-specific ionic liquids using a supported liquid membrane
Shoji Hanioka;Tatsuo Maruyama;Tomohiro Sotani;Masahiro Teramoto.
Journal of Membrane Science (2008)
Development of a hydrophilic polymer membrane containing silver nanoparticles with both organic antifouling and antibacterial properties
Isao Sawada;Razi Fachrul;Tatsuya Ito;Yoshikage Ohmukai.
Journal of Membrane Science (2012)
FACILITATED TRANSPORT OF CO2 THROUGH POLYETHYLENIMINE/POLY(VINYL ALCOHOL) BLEND MEMBRANE
Hideto Matsuyama;Akihiro Terada;Tadashi Nakagawara;Yoshiro Kitamura.
Journal of Membrane Science (1999)
Preparation of polyethylene hollow fiber membrane via thermally induced phase separation
Hideto Matsuyama;Hajime Okafuji;Taisuke Maki;Masaaki Teramoto.
Journal of Membrane Science (2003)
Simultaneous improvement of the monovalent anion selectivity and antifouling properties of an anion exchange membrane in an electrodialysis process, using polyelectrolyte multilayer deposition
Sri Mulyati;Sri Mulyati;Ryosuke Takagi;Akihiro Fujii;Yoshikage Ohmukai.
Journal of Membrane Science (2013)
Structure control of anisotropic and asymmetric polypropylene membrane prepared by thermally induced phase separation
Hideto Matsuyama;Masuo Yuasa;Yoshiro Kitamura;Masaaki Teramoto.
Journal of Membrane Science (2000)
Effect of polypropylene molecular weight on porous membrane formation by thermally induced phase separation
Hideto Matsuyama;Taisuke Maki;Masaaki Teramoto;Kouichi Asano.
Journal of Membrane Science (2002)
Formation of anisotropic membranes via thermally induced phase separation
Hideto Matsuyama;Stephane Berghmans;Douglas R Lloyd.
Preparation of PVDF hollow fiber membrane from a ternary polymer/solvent/nonsolvent system via thermally induced phase separation (TIPS) method
Saeid Rajabzadeh;Tatsuo Maruyama;Tomohiro Sotani;Hideto Matsuyama.
Separation and Purification Technology (2008)
Chemical kinetics of the reaction of carbon dioxide with ethanolamines in nonaqueous solvents
E. Sada;H. Kumazawa;Z. Q. Han;H. Matsuyama.
Aiche Journal (1985)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: