Chemical Reactivity in Confined Systems: Theory, Modelling and Applications - Hardcover

Über die Autorin bzw. den Autor

Pratim Kumar Chattaraj is an Institute Chair Professor, Department of Chemistry, Indian Institute of Technology Kharagpur, India and a J.C. Bose National Fellow. His research focuses on density functional theory, ab-initio calculations, nonlinear dynamics and aromaticity in metal clusters.

Debdutta Chakraborty is a Research Associate in the Department of Chemistry at Katholieke Universiteit Leuven, Belgium. His research focus is on computational quantum chemistry, direct dynamics simulations, atmospheric chemistry and quantum trajectories.

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An insightful analysis of confined chemical systems for theoretical and experimental scientists

C hemical Reactivity in Confined Systems presents a theoretical basis for the molecular phenomena observed in confined spaces. The book highlights state‑of-the-art theoretical and computational approaches, with a focus on obtaining physically relevant clarification of the subject to enable the reader to build an appreciation of underlying chemical principles.

The book includes real-world examples of confined systems that highlight how the reactivity of atoms and molecules change upon encapsulation. Chapters include discussions on recent developments related to several host-guest systems, including cucurbit[n]uril, ExBox⁺⁴, clathrate hydrates, octa acid cavitand, metal organic frameworks (MOFs), covalent organic frameworks (COFs), zeolites, fullerenes, and carbon nanotubes. Readers will learn how to carry out new calculations to understand the physicochemical behavior of confined quantum systems.

Topics covered include:

• A thorough introduction to global reactivity descriptors, including electronegativity, hardness, and electrophilicity
• An exploration of the Fukui function, as well as dual descriptors, higher order derivatives, and reactivity through information theory
• A practical discussion of spin dependent reactivity and temperature dependent reactivity
• Concise treatments of population analysis, reaction force, electron localization functions, and the solvent effect on reactivity

Perfect for academic researchers and graduate students in theoretical and computational chemistry and confined chemical systems, Chemical Reactivity in Confined Systems will also earn a place in the libraries of professionals working in the areas of catalysis, supramolecular chemistry, and porous materials.

Aus dem Klappentext

An insightful analysis of confined chemical systems for theoretical and experimental scientists

C hemical Reactivity in Confined Systems presents a theoretical basis for the molecular phenomena observed in confined spaces. The book highlights state‑of-the-art theoretical and computational approaches, with a focus on obtaining physically relevant clarification of the subject to enable the reader to build an appreciation of underlying chemical principles.

The book includes real-world examples of confined systems that highlight how the reactivity of atoms and molecules change upon encapsulation. Chapters include discussions on recent developments related to several host-guest systems, including cucurbit[n]uril, ExBox⁺⁴, clathrate hydrates, octa acid cavitand, metal organic frameworks (MOFs), covalent organic frameworks (COFs), zeolites, fullerenes, and carbon nanotubes. Readers will learn how to carry out new calculations to understand the physicochemical behavior of confined quantum systems.

Topics covered include:

• A thorough introduction to global reactivity descriptors, including electronegativity, hardness, and electrophilicity
• An exploration of the Fukui function, as well as dual descriptors, higher order derivatives, and reactivity through information theory
• A practical discussion of spin dependent reactivity and temperature dependent reactivity
• Concise treatments of population analysis, reaction force, electron localization functions, and the solvent effect on reactivity

Perfect for academic researchers and graduate students in theoretical and computational chemistry and confined chemical systems, Chemical Reactivity in Confined Systems will also earn a place in the libraries of professionals working in the areas of catalysis, supramolecular chemistry, and porous materials.