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Lindenberg K., Metzler R., Oshanin G. (Eds.) Chemical Kinetics: Beyond the Textbook

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Lindenberg K., Metzler R., Oshanin G. (Eds.) Chemical Kinetics: Beyond the Textbook
World Scientific, 2020. — 618 p. — ISBN: 9781786347008.
Processes involving randomly moving particles, which react either upon encounter or via distance-dependent reaction rates, are ubiquitous in nature. A few stray examples are recombination of ions or holes and electrons, excitation energy migration and quenching, trapping of particles by other species, coagulation, binding of ligands and proteins to specific sites, chemotaxis, catalytically-induced self-propulsion, polymerization, growth of dendrites or aggregates, or nuclei of a new phase.
Several decades ago, it was recognized that the kinetic behavior in some systems with reactions and random transport is strongly affected by many factors, which were not taken into account in previous studies. These are, to name but a few, fluctuations in the spatial distributions of the reactants and fluctuations of the reactivity, some essentially many-particle phenomena, effects of anomalous diffusion, molecular crowding, as well as the internal geometry of the reaction bath. Within recent years, along with a growing interest in chemical processes ocurring in biological systems or cellular environments, numerous advances have been made and considerable knowledge has been acquired. These seminal contributions are, however, scattered among many journals and no attempt has been made so far to present a unified picture.
This book presents a general overview of different contemporary facets of chemical kinetics in a variety of different environments. It includes 23 seminal works and reviews on different aspects of reaction processes in chemical, physical and biophysical systems, both theoretical and experimental.
Fluctuations and Correlations in Chemical Reaction Kinetics and Population Dynamics
Encounter Theory of Chemical Reactions in Solution: Approximate Methods of Calculating Rate Constants
Non-Markovian Kinetics of Reactions in Solutions
Integral Encounter Theory: A Universal Method for Kinetic Description of Multistage Reactions in Solutions
A New Method of Solution for the Fredholm Integral Equation and Its Application to the Diffusion-Influenced Reaction Kinetics
Geminate Electron–Hole Recombination in Homogeneous and Heterojunction Systems
Anomalous Kinetics of Catalytic Conversion Reactions in Linear Nanopores Mediated by Inhibited Transport: Multiscale Modeling
Imperfect Diffusion-Controlled Reactions
Survival, Absorption, and Escape of Interacting Diffusing Particles
Polymer Reaction Kinetics Beyond Markov Hypothesis
Reaction Kinetics in the Few-Encounter Limit
Spatially Inhomogeneous Search Strategies
Markov and Non-Markov Transport Processes within Bulk-Mediated Surface Diffusion Schemes
Diffusion to Capture and the Concept of Diffusive Interactions
Chemical Reactions for Molecular and Cellular Biology
First-Passage Processes and Encounter-Controlled Reactions in Growing Domains
A Case Study of Thermodynamic Bounds for Chemical Kinetics
The Essential Role of Thermodynamics in Metabolic Network Modeling: Physical Insights and Computational Challenges
Kinetics of Protein–DNA Interactions: First-Passage Analysis
Modeling Chemotaxis of Microswimmers: From Individual to Collective Behavior
Adopting the Boundary Homogenization Approximation from Chemical Kinetics to Motile Chemically Active Particles
Modeling Active Emulsions
Hydrodynamic Theory of Phoretic Propulsion: Clarifications, New Concepts, and Reassessment
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