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Colloidal superballs
L. Rossi
Physical and Colloid Chemistry
Sub Physical and Colloid Chemistry
Research output
:
Thesis
›
Doctoral thesis 1 (Research UU / Graduation UU)
Overview
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Keyphrases
Superballs
100%
Colloidal Superballs
100%
Silica
66%
Iron Oxide
66%
Superellipsoid
50%
Colloids
33%
Phase Behavior
33%
Nanoparticles
33%
Pyrophosphate
33%
Chapter 9
16%
Self-assembly
16%
Rod-like
16%
Synthetic Methods
16%
Hollow
16%
Magnetic Properties
16%
External Field
16%
Colloidal Particles
16%
Dipole
16%
Colloidal Model
16%
Adsorption
16%
Synthetic Procedures
16%
Non-magnetic
16%
Structure Formation
16%
Cholesterol
16%
Food-grade
16%
Phytosterols
16%
Dipolar Structure
16%
Physicochemical Properties
16%
Internal Structure
16%
Earth's Magnetic Field
16%
Salt Concentration
16%
Shape Parameter
16%
Particle Concentration
16%
Micron-sized
16%
Chapter 10
16%
Self-assembly Behavior
16%
Externally Applied Magnetic Field
16%
Polymer Particles
16%
Digestion
16%
Polymerized
16%
Precision Control
16%
Silica Colloid
16%
In Vitro Experiment
16%
Simple Cubic
16%
Food Additives
16%
Magnetic Colloids
16%
Magnetic Dipole
16%
Cholesteric
16%
Anisotropic Shape
16%
Hollow Parts
16%
Residual Magnetic Field
16%
Hematite Colloids
16%
Acidic Treatment
16%
Magnetic Behavior
16%
Chapter 11
16%
Magnetic Silica
16%
Hematite Particle
16%
Iron Fortification
16%
Polymer Droplet
16%
Micromagnets
16%
Particle Synthesis
16%
Shape Influence
16%
Material Science
Silicon Dioxide
100%
Hematite
100%
Self Assembly
33%
Nanoparticle
33%
Surface (Surface Science)
16%
Chemical Property
16%
Polymer Particle
16%
Magnetic Property
16%
Particle Synthesis
16%
Food Additive
16%