Highly adjustable 3D nano-architectures and chemistries via assembled 1D biological templates.
Ohmura, Jacqueline F
Highly adjustable 3D nano-architectures and chemistries via assembled 1D biological templates. [electronic resource] - Nanoscale Jan 2019 - 1091-1102 p. digital
Publication Type: Journal Article
2040-3372
10.1039/c8nr04864a doi
Bacteriophage M13--chemistry
Biosensing Techniques
Boron--chemistry
Catalysis
Hydrogels--chemistry
Metals--chemistry
Nanostructures--chemistry
Phosphorus--chemistry
Porosity
Salts--chemistry
Highly adjustable 3D nano-architectures and chemistries via assembled 1D biological templates. [electronic resource] - Nanoscale Jan 2019 - 1091-1102 p. digital
Publication Type: Journal Article
2040-3372
10.1039/c8nr04864a doi
Bacteriophage M13--chemistry
Biosensing Techniques
Boron--chemistry
Catalysis
Hydrogels--chemistry
Metals--chemistry
Nanostructures--chemistry
Phosphorus--chemistry
Porosity
Salts--chemistry