Keyword Search |
Researcher information
Masahiro Kishida
Professor
Molecular System and Biosystem Engineering Laboratory
Department of Chemical Engineering
Faculty of Engineering
Last modified date:2024.04.09
Graduate SchoolProfessor
Molecular System and Biosystem Engineering Laboratory
Department of Chemical Engineering
Faculty of Engineering
Last modified date:2024.04.09
Undergraduate School
Homepage |
https://kyushu-u.elsevierpure.com/en/persons/masahiro-kishida
Reseacher Profiling Tool Kyushu University Pure
http://www.chem-eng.kyushu-u.ac.jp/
See Kishida Lab. .
Reseacher Profiling Tool Kyushu University Pure
http://www.chem-eng.kyushu-u.ac.jp/
See Kishida Lab. .
Academic Degree |
Doctoral Degree of Engineering
Country of degree conferring institution (Overseas) |
No
Field of Specialization |
Chemical Engineering, Catalyitc Reaction Engineering, Material Engineering
Total Priod of education and research career in the foreign country |
01years00months
Outline Activities |
The following studies have been carried out:
1) Application of supported metal catalysts onto oxidation/reduction of toxic metal ions in aqueous phase.
2) Preparation of silica nanocapsules containing various organic compound (ex. homogeneous catalysts).
3) Mechanism elucidation of new exothermic phenomenon in alloys in hydrogen
I teach the following subjects:
1) "Experimentation No.3 on Materials Science and Engineering"
2) "Reaction Engineerings 1 and 2" for 2nd grader and 3rd grader
3) "Functionalized Chemical Materials" and "Material Process Engineering" for graduate students
I possitively participate various research projects and accept researches trusted by companies.
1) Application of supported metal catalysts onto oxidation/reduction of toxic metal ions in aqueous phase.
2) Preparation of silica nanocapsules containing various organic compound (ex. homogeneous catalysts).
3) Mechanism elucidation of new exothermic phenomenon in alloys in hydrogen
I teach the following subjects:
1) "Experimentation No.3 on Materials Science and Engineering"
2) "Reaction Engineerings 1 and 2" for 2nd grader and 3rd grader
3) "Functionalized Chemical Materials" and "Material Process Engineering" for graduate students
I possitively participate various research projects and accept researches trusted by companies.
Research |
Research Interests
Awards
- Development of supported Pt catalysts for dehydrogenation of methylcyclohexane
keyword : dehydrogenation, hydrogen production, platinum catalyst
2018.04~2023.03The following studies have been carried out: 1) Synthesis and silica-coating of nanoparticles (1-10nm) by using micellar method. 2) Nano-coating of submicron-sized inorganic particles with nano-scaled silica layer 3) Synthesis of monodispersed nanoparticles (50-100nm) by using a novel technique.. - Verification of anomalous heating phenomena from metal alloy in hydrogen
keyword : anormalous heat, hydrogen, metal alloy
2016.10~2023.03The following studies have been carried out: 1) Synthesis and silica-coating of nanoparticles (1-10nm) by using micellar method. 2) Nano-coating of submicron-sized inorganic particles with nano-scaled silica layer 3) Synthesis of monodispersed nanoparticles (50-100nm) by using a novel technique.. - Oxidation/Reduction of toxic metal ions over supported metal catalysts in aqueous solution
keyword : toxic metal, supported metal catalyst, oxidation/reduction
2015.04~2023.03The following studies have been carried out: 1) Synthesis and silica-coating of nanoparticles (1-10nm) by using micellar method. 2) Nano-coating of submicron-sized inorganic particles with nano-scaled silica layer 3) Synthesis of monodispersed nanoparticles (50-100nm) by using a novel technique.. - Preparation of silica nanocapsules involving various organic molecules
keyword : nanocapsules, involving organic molecules, silica
2011.04~2016.03The following studies have been carried out: 1) Synthesis and silica-coating of nanoparticles (1-10nm) by using micellar method. 2) Nano-coating of submicron-sized inorganic particles with nano-scaled silica layer 3) Synthesis of monodispersed nanoparticles (50-100nm) by using a novel technique.. - Development of electrocatalysts in PEFC by using silica-coating
keyword : Long life, Electrocatalyst, Fuel cell, Polymer electrolyte, Platinum
2005.04~2016.03The following studies have been carried out: 1) Novel catalytic behavior of silica-coated metal nanoparticles for hydrogen-production reactions. 2) Development of electrode catalysts for PEFC using silica-coated Pt nanoparticles. 3) Preparation of magnetic silica nanobeads with an enzyme, of which activity can be maintained in organic solvent.. - Study on synthesis of metal nanoparticles and their coating with silica
keyword : nanoparticles, silica-coating
1999.04~2016.03The following studies have been carried out: 1) Synthesis and silica-coating of nanoparticles (1-10nm) by using micellar method. 2) Nano-coating of submicron-sized inorganic particles with nano-scaled silica layer 3) Synthesis of monodispersed nanoparticles (50-100nm) by using a novel technique.. - Development of catalytic performance of supported metal catalysts by using silica-coating
keyword : silica-coating, supported catalysts, long life
2002.04~2016.03The following studies have been carried out: 1) Novel catalytic behavior of silica-coated metal nanoparticles for hydrogen-production reactions. 2) Development of electrode catalysts for PEFC using silica-coated Pt nanoparticles. 3) Preparation of magnetic silica nanobeads with an enzyme, of which activity can be maintained in organic solvent.. - Differentiation Dynamics of ES Cells Suspended with Optical Tweezers Using Single Cell Observation
keyword : optical tweezers, ES Cells, Differentiation Dynamics
2005.04~2009.03Differentiation Dynamics of ES Cells Suspended with Optical Tweezers Using Single Cell Observation. We have constructed the system required for the observation of a single cell trapped with optical tweezers. (Figure 1) The optical tweezers consists of Nd3+:YAG laser beams (λ = 1064 nm) that goes through a microscope objective into the chamber that allows a continuous flow of a medium for cultivating ES cells. We trapped a single ES cell and kept it suspended in a culture medium without touching to a support or the other cells, and subsequently monitored the behavior of the single ES cell after supplementing a variety of chemicals into a flow chamber. The single cell trapped with the optical tweezers kept moving without escaping from the tweezers during the cultivation. After 24h, a single ES cell divided into two cells, which indicates laser tweezers did not do any harm to the trapped cell..
- Elucidation of various reactions in hydrogen strage metals at storing/desorbing processes of hydrogen
Reports
1. | Sakae Takenaka, Masahiro Kishida, Functinalzation of carbon nanotube-supported precious metal catalysts by coverage with metal oxide layers, Catal. Survey from Asia, 17, 71-84, 2013.01. |
Papers
Presentations
- Development of Apparatus for Decomposition of Fluorine-type Global Warming Gas
Educational |
Educational Activities
I teach the following subjects:
1) "Chemical Thermodynamics" for 2nd grader
2) "Reaction Engineerings 1 and 2" for 2nd grader and 3rd grader, respectively
3) "Experimentation No.3 on Materials Science and Engineering"
4) "Functionalized Chemical Materials" and "Advanced Chemical Reaction Engineering" for graduate students.
1) "Chemical Thermodynamics" for 2nd grader
2) "Reaction Engineerings 1 and 2" for 2nd grader and 3rd grader, respectively
3) "Experimentation No.3 on Materials Science and Engineering"
4) "Functionalized Chemical Materials" and "Advanced Chemical Reaction Engineering" for graduate students.
Social |
Professional and Outreach Activities
I possitively participate various research projects and accept researches trusted by companies..
Unauthorized reprint of the contents of this database is prohibited.
Copyright © 2006, Kyushu University. All rights reserved.