• 1162 引用
  • 20 h指数
20042019
Pureに変更を加えた場合、すぐここに表示されます。

Fingerprint Takeo Miyakeが取り組む研究トピックをご確認ください。これらのトピックラベルは、この人物の研究に基づいています。これらを共に使用することで、固有の認識が可能になります。

Engineering & Materials Science

Biological fuel cells
Enzymatic fuel cells
Enzymes
Self assembled monolayers
Fructose
Carbon nanotubes
Power generation
Proteins
Electron beam lithography
Electrodes
Conducting polymers
Hydrogels
Glucose
Anodes
Needles
Skin
Glucose oxidase
DNA
Sugars
Microelectrodes
Nanotubes
Fuel cells
Composite materials
Adsorption
Monolayers
Oxidation
Textiles
Protons
Biomolecules
Molecules
Cathodes
Substrates
Contact lenses
Gels
Oligonucleotides
Plaster
Chitin
Microfluidics
Printed circuits
Electrons
Electron beams
Silicon
Transducers
Electric potential
Biofuels
Light emitting diodes
Diffusion in gases
Transistors
Surface waters
Chitosan

Chemical Compounds

Biological fuel cells
Carbon Nanotubes
Enzymatic fuel cells
Enzymes
Self assembled monolayers
Electrodes
Fructose
Anodes
Conducting polymers
Electron beam lithography
bilirubin oxidase
Power generation
Needles
Skin
Glucose Oxidase
Protons
Hydrogel
Glucose 1-Dehydrogenase
Nanotubes
Sepharose
Transistors
Composite materials
NAD
Oxidation
Molecules
Electrons
Chaperonins
Cathodes
Textiles
Proteins
Glucose
Biomolecules
Sugars
Silicon
Oxidoreductases
Alamethicin
Microelectrodes
Contact lenses
Gramicidin
Fuel cells
Plaster
Printed circuits
Lipid bilayers
Chitin
Biofuels
Electric potential
DNA
Carbon
Chitosan
Oligonucleotides

Medicine & Life Sciences

Bioelectric Energy Sources
Electrodes
Carbon Nanotubes
Textiles
Enzymes
Hydrogel
Polymers
Fructose
Alamethicin
bilirubin oxidase
Beak
Adhesives
Electrons
Cutaneous Administration
Transdermal Patch
Chaperonins
Gramicidin
Nanotubes
Iontophoresis
Decapodiformes
Skin
Chitosan
Protons
Glucose 1-Dehydrogenase
Equipment and Supplies
Ion Channels
Surface-Active Agents
Wound Healing
Electric Stimulation
Membranes
Lipid Bilayers
Glucose