Self-organized motion : physiochemical design based on nonlinear dynamics / edited by Satoshi Nakata, Véronique Pimienta, István Lagzi, Hiroyuki Kitahata, Nobuhiko J. Suematsu.
Theoretical and Experimental Design of Self-propelled Objects Based on Nonlinearity;Mathematical Model and Analyses on Spontaneous Motion of Camphor Particle; Coupled Convective Instabilities: Autonomous Motion and Deformation of an Oil Drop on a Liquid Surface; Dynamical Deformation of Interfaces Induced by Aggregate Formation; Synthetic Approaches to Control Self-propelled Motion of Micrometre-sized Oil Droplets in Aqueous Solution; Physical Chemistry of Energy Conversion in Self-propelled Droplets Induced by Dewetting Effect; Tactic Droplets at the Liquid-Air Interface; Chemotactic Droplets Serving as 'Chemo-Taxis'; Collective Behaviour of Self-propelled Objects on a Water Surface; Chemo-mechanical Effects for Information Processing with Camphor Particles Moving on a Water Surface; Collective Behaviour of Artificial Microswimmers in Response to Environmental Conditions; Nonlinear Dynamics of Active Deformable Particles; Active Particles Propelled by Chemical Reactions; Theory of Active Particles and Drops Driven by Chemical Reactions: The Role of Hydrodynamics on Selfpropulsion and Collective Behaviours
Bibliography
Includes bibliographical references and index.
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