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Interfacial hydrodynamic waves driven by chemical reactions
A. Pereira
,
Philip Trevelyan
, U. Thiele
, S. Kalliadasis
College of Engineering and Physical Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
12
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Citations (Scopus)
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Keyphrases
Two-species
100%
Chemical Reaction
100%
Hydrodynamic Waves
100%
Reaction-diffusion
100%
Wave-driven
100%
Interfacial Hydrodynamics
100%
Solitary Waves
50%
Transport Equation
50%
Surfactant
50%
Coupled System
50%
Stationary Pattern
50%
Free Surface
50%
Equations of Motion
50%
Long Waves
50%
Excitable Media
50%
Thin Liquid Film
50%
Wave Expansion
50%
Free-surface Boundary Condition
50%
Inhibitor Concentration
50%
Hydrodynamic Equations
50%
Marangoni Effect
50%
Engineering
Bistables
100%
Free Surface
100%
Hydrodynamic Wave
100%
Solitary Wave
50%
Hydrodynamics
50%
Surfactant
50%
Boundary Condition
50%
Coupled System
50%
Excitable Medium
50%
Activator
50%
Liquid Film
50%
Hydrodynamic Equation
50%
Marangoni Effect
50%
Chemistry
Chemistry
100%
Surfactant
100%
Transport Theory
100%
Marangoni Effect
100%
Liquid Film
100%
Material Science
Surface (Surface Science)
100%
Hydrodynamic Wave
100%
Hydrodynamics
66%
Film
33%
Surface Active Agent
33%
Thin Liquid Film
33%
Mathematics
Free Surface
100%
Boundary Condition
50%
Excitable Medium
50%
Transport Equation
50%
Chemical Engineering
Film
100%
Surfactant
50%