Keyphrases
Surface Plasmon Resonance
100%
Estrogen Receptor Binding
100%
Bisphenol A Derivative
100%
Sensor chip
100%
Receptor Binding Studies
100%
Bisphenol A
66%
Binding Studies
66%
Copyright
33%
Further Development
33%
Adverse Effects
33%
High Concentration
33%
Kinetic Parameters
33%
SETAC
33%
Resonance Method
33%
Dissociation Constant
33%
Association Constant
33%
Endocrine Disrupting Chemicals
33%
Estrogen Receptor
33%
Dissociation Rate Constant
33%
Competition Relationship
33%
Repeated Use
33%
Association Rate Constant
33%
Competitive Inhibition Assay
33%
Molecular Solution
33%
Surface Plasmon
33%
Chip Surface
33%
Chemistry
Bisphenol A
100%
Surface Plasmon Resonance
100%
Buffer Solution
20%
Endocrine Disruptor
20%
Association Constant
20%
Surface Plasmon Resonance
20%
Rate Constant
20%
Pharmacokinetics
20%
% Inhibition
20%
Surface Plasmon
20%
Dissociation Constant
20%
Engineering
Bisphenol
100%
Surface Plasmon
100%
Sensor Chip
60%
Rate Constant
20%
Sensitive Surface
20%
Kinetic Parameter
20%
Biosensor
20%
Running Buffer
20%
Inhibition
20%
Pharmacology, Toxicology and Pharmaceutical Science
Surface Plasmon Resonance
100%
Estrogen Receptor
100%
4,4' Isopropylidenediphenol
100%
Adverse Event
20%
Receptor
20%
Buffer
20%
Endocrine Disruptor
20%