Keyphrases
Streptavidin
100%
High Efficiency
100%
Porous Membrane
100%
Biosensing
100%
Pore Size
100%
Pore Size Distribution
100%
Filter Membrane
100%
Porous Alumina Membrane
100%
Real-time Flows
100%
High Performance
50%
Response Time
50%
Commercially Available
50%
High Sensitivity
50%
Specific Binding
50%
Refractive Index Change
50%
Sensing Device
50%
Capture Efficiency
50%
Sensing Response
50%
Pressure Measurement
50%
Nanofluidics
50%
Mass Transport
50%
Surface Loading
50%
Small Sample Volume
50%
Sensing Technique
50%
Sensor Surface
50%
Adsorption
50%
Flow-through
50%
Bulk Solution
50%
Membrane Surface
50%
Membrane Device
50%
Pore Wall
50%
Back Pressure
50%
Physisorption
50%
Polarimetry
50%
Diffusion Length
50%
CdTe Quantum Dots
50%
Large Surfaces
50%
Small Pore
50%
Pore Dimension
50%
Microporous Membrane
50%
Microfluidic Platform
50%
Biotinylated BSA
50%
AAO Membrane
50%
Readout Method
50%
Fast Sensing
50%
Fluidics
50%
Bioreceptor
50%
Anodic Alumina
50%
Capture Assay
50%
BSA Binding
50%
Efficient Capture
50%
Transduction Mechanism
50%
Distribution Information
50%
Aminopolymer
50%
Polyethylenimine
50%
Engineering
Porosity
100%
Biosensing
100%
Fluidics
100%
Flow Time
100%
Membrane Filter
100%
Porous Alumina
100%
Refractive Index Change
50%
Sensing Device
50%
Response Time
50%
Nanofluidics
50%
Bioinstrumentation
50%
Sensing Mechanisms
50%
Surface Sensing
50%
Bulk Solution
50%
Membrane Surface
50%
Quantum Dot
50%
Backpressure
50%
Physisorption
50%
Aluminum Oxide
50%
Diffusion Length
50%
Microporous Membrane
50%
Capture Efficiency
50%
Analyte Molecule
50%
Mass Transport
50%
Material Science
Surface (Surface Science)
100%
Pore Size
100%
Aluminum Oxide
100%
Fluidics
66%
Refractive Index
33%
Nanofluidics
33%
Quantum Dot
33%
Pore Size Distribution
33%
Bovine Serum Albumin
33%
Chemical Engineering
Membrane Filter
100%
Pressure Measurement
50%
Physisorption
50%
Mass Transport
50%