SUZUKI Kenzi

J-GLOBAL         Last updated: Oct 4, 2012 at 14:48
 
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Name
SUZUKI Kenzi

Research Areas

 
 

Academic & Professional Experience

 
 
   
 
Professor, Nagoya University Graduate School of Engineering
 
2001
 - 
2004
 Ecofunctional Ceramics Research Group, Ceramics Research Institute, National Institute of Advanced Industrial Science and Technology, Group leader
 
2004
   
 
- Division of Environmental Research, EcoTopia Science Institute, Nagoya University, Professor
 

Education

 
 
 - 
1972
Industrial Chemistry, Faculty of Engineering, Nagoya Institute of Technology
 

Committee Memberships

 
2008
 - 
2010
The Clay Science Society of Japan  
 
2004
   
 
The Japan Petroleum Institute  
 
1997
 - 
1999
Catalysis Society of Japan  
 
1991
 - 
1997
The Chemical Society of Japan  
 
1999
 - 
2005
The Japan Society of Waste Management Experts  
 

Misc

 
Resources, Conservation and Recycling   54(11) 905-915   2010
Direct oxidation of methane to methanol over proton conductor and metal mixed catalysts
Journal of Catalysis   doi:10.1016(j.jcat.2010.01.011/)    2010

Books etc

 
Biomass Gasification: Chemistry, Processes and Applications / The study on the performance of “mobile oxygen” catalysts used for biomass gasification
Nova Science Publishers   2009   

Works

 
Powder Diffraction File (International Centre Diffraction Data) Calcium Aluminum Silicate
2004
Powder Diffraction File (International Centre Diffraction Data) 52-1611, Cobalt Aluminum Tin Carbonate Hydroxide Hydrate
2002
Powder Diffraction File (International Centre Diffraction Data) 52-1610, Nickel Aluminum Tin Carbonate Hydroxide Hydrate
2002
Powder Diffraction File (International Centre Diffraction Data) 52-1609, Magnesium Aluminum Tin Carbonate Hydroxide Hydrate
2002

Research Grants & Projects

 
The study on the synthesis of eco-functional materials and their application
Funded Research
Project Year: 2004 - 2011

Patents

 
活性酸素を包含した無機化合物及びその製造法
US 7514384
メタノールの酸化的水蒸気改質反応による水素ガス製造触媒及びその製造法
1161992
Catalysts for Oxidative Steam Reforming of Methanol as a New and Efficient Method for the Selective Production of Hydrogen for Fuel Cells and Their Synthesis Method
US 7025947 B2