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Superlattice formation in binary mixtures of block copolymer micelles
Sayeed Abbas,
Timothy P. Lodge
Chemistry (Twin Cities)
Research output
:
Contribution to journal
›
Article
›
peer-review
10
Scopus citations
Overview
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Dive into the research topics of 'Superlattice formation in binary mixtures of block copolymer micelles'. Together they form a unique fingerprint.
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Keyphrases
Styrene
100%
Block Copolymer Micelles
100%
Binary Mixture
100%
Superlattice
100%
Dimethylsilane
71%
Isoprene
57%
Polystyrene
42%
Molar Mass
28%
Diblock
28%
Dynamic Light Scattering
14%
Cryogenic Electron Microscopy
14%
Diblock Copolymer
14%
Small-angle X-ray Scattering
14%
Selective Solvent
14%
Hydrodynamic Radius
14%
Unit Cell Dimensions
14%
Polydimethylsiloxane
14%
Polymer Components
14%
Polyisoprene
14%
Dilute Solution
14%
Total Concentration
14%
Size Ratio
14%
Diethyl Phthalate
14%
Face-centered Cubic Phase
14%
Superlattice Structure
14%
Mixed Solution
14%
Chemistry
Styrene
100%
Superlattice
100%
formation
100%
Block Copolymer
100%
Micelle
100%
Poly(styrene)
28%
Molar Mass
28%
Transmission Electron Microscopy
14%
Face-Centered Cubic Crystal System
14%
Small Angle X-Ray Scattering
14%
Space Group
14%
Hydrodynamic Radius
14%
Photon Correlation Spectroscopy
14%
Cubic Space Group
14%
Diethyl Phthalate
14%
Fm3c
14%
Material Science
Block Copolymer
100%
Superlattice
100%
Micelle
100%
Binary Mixture
100%
Polystyrene
42%
Copolymer
14%
Hydrodynamics
14%
Polyisoprene
14%
Transmission Electron Microscopy
14%
Light Scattering
14%
Pharmacology, Toxicology and Pharmaceutical Science
Styrene
100%
Copolymer
100%
Micelle
100%
Styrofoam
42%
Transmission Electron Microscopy
14%
Dimeticone
14%
Phthalic Acid Diethyl Ester
14%
Light Scattering
14%
Chemical Engineering
Block Copolymer
100%
Styrene
100%
Polystyrene
42%
Polyisoprenes
14%
Cryogenics
14%
Polydimethylsiloxane
14%