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Ionic liquids have emerged as a promising class of solvents and catalysts for various chemical reactions due to their unique properties such as high thermal stability, low volatility, and high ionic conductivity. The book "Ionic Liquid Based Catalyst Design for Industry" by M. Deepan Kumar presents an in-depth exploration of computational methods for the design of ionic liquid-based catalysts for industrial applications. The book provides a detailed understanding of the underlying principles of ionic liquid-based catalysis and the various computational techniques used for the design and optimization of such catalysts. The author describes the use of molecular modeling tools such as Density Functional Theory (DFT), Molecular Dynamics (MD) simulations, and Monte Carlo simulations for the prediction of thermodynamic and kinetic properties of ionic liquid-based catalysts. The book also covers various industrial applications of ionic liquid-based catalysts such as the production of biodiesel, the synthesis of pharmaceuticals, and the catalytic conversion of biomass to value-added chemicals. The author presents case studies and examples to illustrate the practical applications of ionic liquid-based catalysts in the industry. Overall, "Ionic Liquid Based Catalyst Design for Industry" is an essential reference for researchers and engineers working in the field of ionic liquid-based catalysis and for those interested in the design and optimization of sustainable and efficient catalysts for industrial processes.