Theory of diffusion-influenced reactions in complex geometries

Marta Galanti; Duccio Fanelli; Sergey D. Traytak; Francesco Piazza

doi:10.1039/C6CP01147K

Theory of diffusion-influenced reactions in complex geometries†

Marta Galanti,^abcde Duccio Fanelli,^ac Sergey D. Traytak^f and Francesco Piazza*^a

* Corresponding authors

^a Università degli Studi di Firenze, Dipartimento di Fisica e Astronomia and CSDC, via G. Sansone 1, IT-50019 Sesto Fiorentino, Firenze, Italia
E-mail: Francesco.Piazza@gmail.com

^b Dipartimento di Sistemi e Informatica, Università di Firenze, Via S. Marta 3, 50139 Florence, Italy

^c INFN, Sezione di Firenze, Italy

^d Université d'Orléans, Château de la Source, 45100, Orléans, France

^e Centre de Biophysique Moléculaire, CNRS-UPR4301, Rue C. Sadron, Orléans, France

^f Semenov Institute of Chemical Physics RAS, 4 Kosygina St., 117977 Moscow, Russia

Abstract

Chemical transformations involving the diffusion of reactants and subsequent chemical fixation steps are generally termed “diffusion-influenced reactions” (DIR). Virtually all biochemical processes in living media can be counted among them, together with those occurring in an ever-growing number of emerging nano-technologies. The role of the environment's geometry (obstacles, compartmentalization) and distributed reactivity (competitive reactants, traps) is key in modulating the rate constants of DIRs, and is therefore a prime design parameter. Yet, it is a formidable challenge to build a comprehensive theory that is able to describe the environment's “reactive geometry”. Here we show that such a theory can be built by unfolding this many-body problem through addition theorems for special functions. Our method is powerful and general and allows one to study a given DIR reaction occurring in arbitrary “reactive landscapes”, made of multiple spherical boundaries of given size and reactivity. Importantly, ready-to-use analytical formulas can be derived easily in most cases.

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DOI: https://doi.org/10.1039/C6CP01147K
Article type: Paper
Submitted: 19 Feb 2016
Accepted: 17 May 2016
First published: 17 May 2016

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Phys. Chem. Chem. Phys., 2016,18, 15950-15954

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Theory of diffusion-influenced reactions in complex geometries

M. Galanti, D. Fanelli, S. D. Traytak and F. Piazza, Phys. Chem. Chem. Phys., 2016, 18, 15950 DOI: 10.1039/C6CP01147K

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Physical Chemistry Chemical Physics

Theory of diffusion-influenced reactions in complex geometries†

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