INIS
polymers
100%
membranes
100%
lipids
100%
cell membranes
46%
surfaces
30%
dynamics
30%
fluorescence
23%
hydration
23%
nmr
15%
losses
15%
injuries
15%
adsorption
15%
necrosis
15%
data
7%
resolution
7%
microscopy
7%
spectroscopy
7%
tissues
7%
interactions
7%
diseases
7%
thermodynamics
7%
pathology
7%
applications
7%
energy
7%
water
7%
public health
7%
stimuli
7%
death
7%
oxidation
7%
modulation
7%
trauma
7%
permeability
7%
hydrogen 1
7%
translocation
7%
polarization
7%
leakage
7%
phospholipids
7%
Chemistry
Membrane Lipid
100%
Polymer
100%
Poly(ethylene Glycol)
45%
Surface
36%
Poloxamer
27%
Biocompatible Material
18%
Fluorescence
18%
Unilamellar Liposome
18%
Procedure
18%
NMR Spectroscopy
18%
Adsorption
18%
Thermodynamics
9%
Lipid
9%
Permeability
9%
Phospholipid
9%
Metabolic
9%
Fluorescence Microscopy
9%
Oxidative Stress
9%
Dynamic Nuclear Polarization
9%
Sealant
9%
Structure
9%
Application
9%
Energy
9%
Water Type
9%
Time
9%
Assay
9%
Diffusivity
9%
Biochemistry, Genetics and Molecular Biology
Membrane
100%
Cell Membrane
75%
Surface Property
50%
Hydration
37%
Dynamics
37%
Fluorescence
25%
Adsorption
25%
Thermodynamics
12%
Modulation
12%
Nuclear Magnetic Resonance Spectroscopy
12%
Phospholipid Membrane
12%
Diffusivity
12%
Oxidative Stress
12%
Membrane Permeability
12%
Energy
12%
Reperfusion
12%
Osmotic Stress
12%
Time
12%
Health
12%
Lipid
12%
Fluorescence Microscopy
12%
Dynamic Nuclear Polarization
12%
Pharmacology, Toxicology and Pharmaceutical Science
Polymer
100%
Membrane Lipid
100%
Hydration
27%
Poloxamer
27%
Adsorption
18%
Necrosis
18%
Injury
18%
Diseases
9%
Lipid
9%
Sodium Thiosulfate
9%
Reperfusion Injury
9%
Membrane Phospholipid
9%
Death
9%
Exhaustion
9%
Muscular Dystrophy
9%
Water
9%
Sealant
9%