Keyphrases
Polyelectrolyte
100%
Complex Coacervation
92%
Coacervate
86%
Bottlebrush Polymers
54%
Coacervation
53%
Hydrodynamic Interaction
52%
Phase Behavior
46%
Complex Coacervates
45%
Phase Separation
45%
Side Chain
43%
Polymer Dynamics
41%
Self-assembly
40%
Globules
38%
Brownian Dynamics Simulation
37%
Extensional Flow
34%
Coacervate Phase
33%
Self-consistent Field Theory
31%
Penetrant
30%
Linear Polymers
30%
Polymer Chain
29%
Semi-dilute Solution
29%
Bottlebrush
28%
Dilute Solution
28%
Shear Flow
27%
Material Design
27%
Polymer Network
26%
Polymer Solution
25%
Polymeric Complex
25%
Ring Polymer
25%
Supernatant
24%
Oppositely Charged Polyelectrolytes
23%
Nucleoid-associated Proteins
23%
Prompt Dissociation
23%
Biological Systems
22%
Associating Polymers
21%
Transfer Matrix Theory
21%
Macromolecules
21%
Block Copolymer
21%
Homopolymer
21%
Oppositely Charged
20%
Extension Force
19%
Monte Carlo Simulation
19%
High Charge Density
19%
Coarse-grained Simulations
19%
Polymer Complex
19%
Liquid State
18%
Rheology
18%
Worm-like
18%
Ion Correlations
18%
Material Properties
17%
Engineering
Computer Simulation
45%
Hydrodynamic Interaction
44%
Extensional Flow
34%
Phase Separation
30%
Side Chain
30%
Network Polymer
25%
Boltzmann Equation
23%
Homopolymer
23%
Biological System
23%
Shear Flow
22%
Rheology
20%
Hydrodynamics
20%
Linear Polymer
19%
Salt Concentration
19%
Dilute Solution
18%
Relaxation Time
17%
Nonequilibrium
16%
Polymer Chain
15%
Charge Transport
15%
Simple Shear
15%
Transients
12%
Diffusive
12%
Nanoparticle
11%
Molecular Level
10%
Cross-Linked Polymer
10%
Engineering
10%
Averaging Method
9%
Length Scale
9%
Simulation Result
8%
High Salt Concentration
7%
Level Detail
7%
Tension Surface
7%
Deep Understanding
7%
Electrostatic Attraction
7%
High Shear Rate
7%
Experimental Characterization
7%
Osmotic Effect
7%
Rotors
7%
Parameter Space
7%
Molecular Mechanics
7%
Polymerization
7%
Lift Force
7%
Equilibrium State
7%
Crosslinks
7%
Enhanced Adhesion
7%
Bridging
7%
Show Effect
7%
Polymer Science
7%
Mechanical Response
7%
Induced Surface
7%