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Structure and rheology of hydrogen bond reinforced liquid crystals
Stephen M. Martin
, Jun Yonezawa
, Matthew J. Horner
, Chris Macosko
, Michael D. Ward
Chemical Engineering and Materials Science
Research output
:
Contribution to journal
›
Article
›
peer-review
51
Scopus citations
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Keyphrases
Rheology
100%
Reinforced
100%
Liquid Crystal
100%
Smectic Phase
100%
Guanidinium
100%
Hydrogen Bonds (H-bonds)
100%
Smectic
75%
Alkanes
50%
Liquid Crystal Phase
50%
Layered Architecture
50%
Sodium
25%
Small Molecules
25%
Viscosity
25%
Rheological Behavior
25%
Phase Behavior
25%
Elevated Temperature
25%
X Ray Diffraction
25%
Single Crystal
25%
Two Dimensional
25%
Order of Magnitude
25%
Molecular Size
25%
Liquid Crystalline
25%
Phase Structure
25%
Size-and-shape
25%
Large Viscosity
25%
Layer Architecture
25%
Packing Motifs
25%
Non-covalent Intermolecular Interaction
25%
Molecular Shape
25%
Polymorphic Transition
25%
Sulfonate
25%
Intermolecular Hydrogen Bond
25%
Organosulfates
25%
DSPACE
25%
Structure-directing
25%
Chain Length
25%
Common Structure
25%
Crystal Architecture
25%
Crystal Packing
25%
Alkylbenzene Sulfonate
25%
Hydrogen Bond Network
25%
Alkyl Chain Length
25%
Crystalline Phase
25%
Smectic Liquid Crystals
25%
Single Crystal X-ray Diffraction (SCXRD)
25%
Liquid Crystal State
25%
Chemistry
Hydrogen Bonding
100%
Rheology
100%
Smectic Phase
100%
Liquid Crystal
100%
Guanidinium
80%
Guanidine
80%
Crystalline Material
40%
Alkane
40%
Phase Behavior
20%
Single Crystalline Solid
20%
Molecular Size
20%
X-Ray Diffraction
20%
Molecular Shape
20%
Single Crystal X-Ray Diffraction
20%
Sodium
20%
Intermolecular Force
20%
Sulfonate
20%
Material Science
Hydrogen Bonding
100%
Rheology
100%
Liquid Crystal
100%
Crystalline Material
50%
X-Ray Diffraction
25%
Sodium
25%
Single Crystal X-Ray Diffraction
25%
Smectic Liquid Crystal
25%
Single Crystal
25%