Growth and Form of Self-organized Branched Crystal Pattern in Nonlinear Chemical System

The book introduces§the oscillatory reaction and pattern formation in the Belousov-Zhabotinsky (BZ) reaction that became model for investigating a§wide range of intriguing pattern formations in chemical systems. So many§modifications in classic version of BZ reaction have been carried out in§various experimental conditions that demonstrate rich varieties of temporal§oscillations and spatio-temporal patterns in non- equilibrium conditions.§Mixed-mode versions of BZ reactions, which comprise a pair of organic§substrates or dual metal catalysts, have displayed very complex oscillating§behaviours and novel space-time patterns during reaction processes. These§characteristic spatio-temporal properties of§BZ reactions have attracted increasing attention of the scientific community in§recent years because of its comparable periodic structures in electrochemical§systems, polymerization processes, and§non-equilibrium crystallization phenomena. Instead, non-equilibrium§crystallization phenomena which lead to development of novel crystal§morphologies in constraint of thermodynamic equilibrium conditions have been§investigated and are said to be stationary periodic structures. Efforts have§continued to analyze insight mechanisms and roles of reaction-diffusion§mechanism and self-organization in the growth of such periodic crystal§patterns. In this book, non-equilibrium crystallization phenomena, leading to§growth of some novel crystal patterns in dual organic substrate modes of§oscillatory BZ reactions have been discussed. Efforts have been made to find§out experimental parameters where transitions of the spherulitic crystal§patterns take place. The book provides the scientific community and entrepreneurs with§a thorough understanding and knowledge of the growth and form of branched§crystal pattern in reaction-diffusion system§and their morphological transition.§§