Keyphrases
Rapid Manufacturing
100%
Water-based Approach
100%
MOF-74
100%
Catalase
54%
Chymotrypsin
36%
Metal-organic Frameworks (MOFs)
18%
Hydrogen Peroxide
18%
Urea
18%
Zeolitic Imidazolate framework-90
18%
Aperture Size
18%
One-dimensional Channels
18%
Proteinase K
18%
Room Temperature
9%
Zinc Metal Organic Framework
9%
Industrial Application
9%
Hydrolysis
9%
Crystallites
9%
Biological Function
9%
Powder X-ray Diffraction
9%
Catalytic Activity
9%
Immobilization
9%
Phenylalanine
9%
Increased Demand
9%
Eco-friendly Method
9%
Confocal Microscopy
9%
Electrophoresis
9%
Confinement Effect
9%
General Applicability
9%
Green Chemistry
9%
Bioactivity
9%
Size Limit
9%
Electron Microscopy
9%
Size Selectivity
9%
Nanometre
9%
Biocatalysis
9%
Nitroaniline
9%
Water-based System
9%
Decreased Activity
9%
Selective Protection
9%
Confined Effect
9%
Catalase Enzyme
9%
Contrast-free
9%
Sustainable Chemistry
9%
H2O2 Decomposition
9%
Observed Rate Constant
9%
Enzyme Encapsulation
9%
Material Science
Biocomposites
100%
Zinc-Based MOF
100%
Catalase
63%
Hydrogen Peroxide
36%
Metal-Organic Framework
27%
Powder X-Ray Diffraction
9%
Catalyst Activity
9%
Confocal Microscopy
9%
Electrophoretic Technology
9%
Electron Microscopy
9%
Enzymatic Hydrolysis
9%
Crystallite
9%
Chemical Engineering
Hydrogen Peroxide
100%
Zeolitic Imidazolate Framework
50%
Electrophoretic Technology
25%
Metal-Organic Frameworks
25%
Food Science
Electron Microscopy
100%
Phenylalanine
100%