Phyto-inspired silica nanowires: characterization and application in lipase immobilization.
Rao, Ashit
Phyto-inspired silica nanowires: characterization and application in lipase immobilization. [electronic resource] - ACS applied materials & interfaces Feb 2012 - 871-7 p. digital
Publication Type: Journal Article
1944-8252
10.1021/am201543e doi
Candida--enzymology
Enzymes, Immobilized--metabolism
Hydrogen-Ion Concentration
Lipase--metabolism
Lythraceae--chemistry
Nanowires--chemistry
Plant Leaves--chemistry
Silicon Dioxide--chemistry
Surface Properties
Temperature
Zinc--chemistry
Phyto-inspired silica nanowires: characterization and application in lipase immobilization. [electronic resource] - ACS applied materials & interfaces Feb 2012 - 871-7 p. digital
Publication Type: Journal Article
1944-8252
10.1021/am201543e doi
Candida--enzymology
Enzymes, Immobilized--metabolism
Hydrogen-Ion Concentration
Lipase--metabolism
Lythraceae--chemistry
Nanowires--chemistry
Plant Leaves--chemistry
Silicon Dioxide--chemistry
Surface Properties
Temperature
Zinc--chemistry