Physics of active emulsions
Copyright policy )Physics of active emulsions
Phase separating systems that are maintained away from thermodynamic equilibrium via molecular processes represent a class of active systems, which we call active emulsions. These systems are driven by external energy input for example provided by an external fuel reservoir. The external energy input gives rise to novel phenomena that are not present in passive systems. For instance, concentration gradients can spatially organise emulsions and cause novel droplet size distributions. Another example are active droplets that are subject to chemical reactions such that their nucleation and size can be controlled and they can spontaneously divide. In this review we discuss the physics of phase separation and emulsions and show how the concepts that governs such phenomena can be extended to capture the physics of active emulsions. This physics is relevant to the spatial organisation of the biochemistry in living cells, for the development novel applications in chemical engineering and models for the origin of life.
Review article about passive and active emulsions
- Imperial College London United Kingdom
- Universität Augsburg Germany
- Max Planck Institute for Dynamics and Self Organization Germany
- Center for Systems Biology Dresden Germany
- Government of the United States of America United States
REACTIVE BINARY-MIXTURES, General Physics, suppression of Ostwald-ripening, Physics, Multidisciplinary, driven chemical reactions in emulsions, SEGREGATION DYNAMICS, FOS: Physical sciences, active emulsions, Condensed Matter - Soft Condensed Matter, 530, SPINODAL DECOMPOSITION, droplet ripening in concentration gradients, THERMAL-INVERSION PROCESS, liquid phase separation, positioning of droplets, 01 Mathematical Sciences, LATTICE-GAS MODEL, Structure formation and active systems, Multidisciplinary, Science & Technology, 02 Physical Sciences, Physics, CHEMICAL-REACTION, POLYMER MEMBRANE FORMATION, Physical Sciences, INDUCED PHASE-SEPARATION, Soft Condensed Matter (cond-mat.soft), THERMODYNAMIC STABILITY, MONTE-CARLO SIMULATIONS
REACTIVE BINARY-MIXTURES, General Physics, suppression of Ostwald-ripening, Physics, Multidisciplinary, driven chemical reactions in emulsions, SEGREGATION DYNAMICS, FOS: Physical sciences, active emulsions, Condensed Matter - Soft Condensed Matter, 530, SPINODAL DECOMPOSITION, droplet ripening in concentration gradients, THERMAL-INVERSION PROCESS, liquid phase separation, positioning of droplets, 01 Mathematical Sciences, LATTICE-GAS MODEL, Structure formation and active systems, Multidisciplinary, Science & Technology, 02 Physical Sciences, Physics, CHEMICAL-REACTION, POLYMER MEMBRANE FORMATION, Physical Sciences, INDUCED PHASE-SEPARATION, Soft Condensed Matter (cond-mat.soft), THERMODYNAMIC STABILITY, MONTE-CARLO SIMULATIONS
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