Skip to main navigation
Skip to search
Skip to main content
Princeton University Home
Help & FAQ
Home
Profiles
Research Units
Facilities
Projects
Research output
Search by expertise, name or affiliation
Dielectric Properties of Water in Charged Nanopores
Thomas R. Underwood,
Ian C. Bourg
Civil & Environmental Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Dielectric Properties of Water in Charged Nanopores'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Engineering & Materials Science
Nanopores
100%
Dielectric properties
81%
Water
36%
Dielectric properties of liquids
27%
Permittivity
27%
Relaxation
25%
Soils
21%
Clay minerals
18%
Liquids
18%
Pore size
15%
Molecular dynamics
15%
Swelling
14%
Water content
14%
Clay
13%
Computer simulation
7%
Physics & Astronomy
dielectric properties
56%
water
38%
clays
29%
porosity
29%
soils
28%
liquids
21%
attenuation
20%
permittivity
18%
montmorillonite
17%
moisture content
14%
swelling
13%
minerals
13%
molecular dynamics
9%
saturation
9%
simulation
5%
Chemical Compounds
Dielectric Property
67%
Soil
38%
Pore
29%
Clay Mineral
26%
Permittivity
24%
Pore Size Distribution
22%
Dielectric Constant
20%
Molecular Dynamics
16%
Simulation
14%
Solvent
10%
Time
8%