Yoshitake Masuda mainly investigates Monolayer, Thin film, Nanotechnology, Aqueous solution and Self-assembled monolayer. His studies in Monolayer integrate themes in fields like Silanol, Self-assembly, X-ray photoelectron spectroscopy, Colloid and Deposition. He has researched Thin film in several fields, including Amorphous solid, Layer, Electrochemistry and Mineralogy.
His work on Nanorod and Nanostructure is typically connected to Template as part of general Nanotechnology study, connecting several disciplines of science. His Aqueous solution research is multidisciplinary, incorporating perspectives in Inorganic chemistry, Wafer, Lithography and Photoluminescence. The concepts of his Self-assembled monolayer study are interwoven with issues in Polymer chemistry and Nucleation.
Yoshitake Masuda spends much of his time researching Nanotechnology, Aqueous solution, Thin film, Inorganic chemistry and Monolayer. His work deals with themes such as Nano- and Ceramic, which intersect with Nanotechnology. His Aqueous solution study combines topics from a wide range of disciplines, such as Crystal growth, Crystallization, Nucleation, Zinc and Anatase.
The Thin film study combines topics in areas such as X-ray photoelectron spectroscopy, Analytical chemistry, Amorphous solid, Mineralogy and Dielectric. His biological study spans a wide range of topics, including Oxide and Tin oxide. His biological study spans a wide range of topics, including Silicon and Silanol.
Yoshitake Masuda mainly focuses on Nanotechnology, Nanosheet, Nanoparticle, Aqueous solution and Tin oxide. Yoshitake Masuda combines subjects such as Crystallinity and Nano- with his study of Nanotechnology. His research integrates issues of Crystal growth, Crystallization, Phase, Supersaturation and Nanomaterials in his study of Aqueous solution.
His Tin oxide research incorporates themes from Inorganic chemistry, Dye-sensitized solar cell and Combinatorial chemistry. His Thin film research includes themes of Contact angle, Electrochromism and X-ray photoelectron spectroscopy. His Self-assembly study combines topics in areas such as Cubic zirconia, Silane and Monolayer.
His main research concerns Nanotechnology, Nanoparticle, Thin film, Nanosheet and Crystal. His Nanotechnology research integrates issues from Crystallinity, Surface finish and Surface modification. As a member of one scientific family, he mostly works in the field of Crystallinity, focusing on Wurtzite crystal structure and, on occasion, Substrate.
His study looks at the intersection of Nanoparticle and topics like Adsorption with Composite material and Colloidal gold. The various areas that Yoshitake Masuda examines in his Thin film study include Nanostructure, Contact angle, Electrochromism and X-ray photoelectron spectroscopy. His study looks at the relationship between Crystal and fields such as Oxygen, as well as how they intersect with chemical problems.
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.
S Bharathi;D Nataraj;K Senthil;Yoshitake Masuda.
J Nanoparticle Res (2013)
Corrosion resistance and durability of superhydrophobic surface formed on magnesium alloy coated with nanostructured cerium oxide film and fluoroalkylsilane molecules in corrosive NaCl aqueous solution
Takahiro Ishizaki;Yoshitake Masuda;Michiru Sakamoto.
Room temperature deposition of a TiO2 thin film from aqueous peroxotitanate solution
Yanfeng Gao;Yoshitake Masuda;Zifei Peng;Tetsu Yonezawa.
Journal of Materials Chemistry (2003)
Formation and photocatalytic application of ZnO nanotubes using aqueous solution.
Dewei Chu;Yoshitake Masuda;Tatsuki Ohji;Kazumi Kato.
Light-excited superhydrophilicity of amorphous TiO2 thin films deposited in an aqueous peroxotitanate solution.
Yanfeng Gao;Yoshitake Masuda;Kunihito Koumoto.
Thermoelectric performance of Bi- and Na-substituted Ca3Co4O9 improved through ceramic texturing
Y. Masuda;D. Nagahama;H. Itahara;T. Tani.
Journal of Materials Chemistry (2003)
The effect of surface charge on hydroxyapatite nucleation.
Peixin Zhu;Yoshitake Masuda;Kunihito Koumoto.
Deposition Mechanism of Anatase TiO2 on Self-Assembled Monolayers from an Aqueous Solution
Y. Masuda;T. Sugiyama;W. S. Seo;K. Koumoto.
Chemistry of Materials (2003)
Site-selective deposition and morphology control of UV- and visible-light-emitting ZnO crystals
Yoshitake Masuda;Naoto Kinoshita;Fuyutoshi Sato;Kunihito Koumoto.
Crystal Growth & Design (2006)
Acid−Base Properties and Zeta Potentials of Self-Assembled Monolayers Obtained via in Situ Transformations†
Jing-Jong Shyue;Mark R. De Guire;Tsuyoshi Nakanishi;Yoshitake Masuda.
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: