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Non-Markovian Kinetics of Rections in Solution. / Ivanov, Konstantin; Lukzen, Nikita; Doktorov, Alexander.

Chemical Kinetics: Beyond the Textbook. ред. / Katja Lindenberg; Ralf Metzler; Gleb Oshanin. Singapore : World Scientific Publishing Europe Ltd., 2019. стр. 65-96.

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийглава/разделнаучнаяРецензирование

Harvard

Ivanov, K, Lukzen, N & Doktorov, A 2019, Non-Markovian Kinetics of Rections in Solution. в K Lindenberg, R Metzler & G Oshanin (ред.), Chemical Kinetics: Beyond the Textbook. World Scientific Publishing Europe Ltd., Singapore, стр. 65-96. https://doi.org/10.1142/q0209

APA

Ivanov, K., Lukzen, N., & Doktorov, A. (2019). Non-Markovian Kinetics of Rections in Solution. в K. Lindenberg, R. Metzler, & G. Oshanin (Ред.), Chemical Kinetics: Beyond the Textbook (стр. 65-96). World Scientific Publishing Europe Ltd.. https://doi.org/10.1142/q0209

Vancouver

Ivanov K, Lukzen N, Doktorov A. Non-Markovian Kinetics of Rections in Solution. в Lindenberg K, Metzler R, Oshanin G, Редакторы, Chemical Kinetics: Beyond the Textbook. Singapore: World Scientific Publishing Europe Ltd. 2019. стр. 65-96 doi: 10.1142/q0209

Author

Ivanov, Konstantin ; Lukzen, Nikita ; Doktorov, Alexander. / Non-Markovian Kinetics of Rections in Solution. Chemical Kinetics: Beyond the Textbook. Редактор / Katja Lindenberg ; Ralf Metzler ; Gleb Oshanin. Singapore : World Scientific Publishing Europe Ltd., 2019. стр. 65-96

BibTeX

@inbook{58b0f5c423d84ab9bd36517312d95509,
title = "Non-Markovian Kinetics of Rections in Solution",
abstract = "In this contribution, we give a brief overview of theoretical approaches to diffusion-influenced reactions, focusing on non-stationary (non-Markovian) effects in chemical kinetics. We discuss the origin of such effects and their manifestations. We also introduce the idea of “encounter theory”, an approach that treats the reacting system as a “gas” of reactants diluted in a chemically inert solvent, and discuss the variants of this theory — known as integral encounter theory and modified encounter theory",
keywords = "Chemical kinetics, reactions in solution, diffusion control",
author = "Konstantin Ivanov and Nikita Lukzen and Alexander Doktorov",
year = "2019",
month = aug,
day = "27",
doi = "10.1142/q0209",
language = "English",
isbn = "978-1786347008",
pages = "65--96",
editor = "Katja Lindenberg and Ralf Metzler and Gleb Oshanin",
booktitle = "Chemical Kinetics",
publisher = "World Scientific Publishing Europe Ltd.",

}

RIS

TY - CHAP

T1 - Non-Markovian Kinetics of Rections in Solution

AU - Ivanov, Konstantin

AU - Lukzen, Nikita

AU - Doktorov, Alexander

PY - 2019/8/27

Y1 - 2019/8/27

N2 - In this contribution, we give a brief overview of theoretical approaches to diffusion-influenced reactions, focusing on non-stationary (non-Markovian) effects in chemical kinetics. We discuss the origin of such effects and their manifestations. We also introduce the idea of “encounter theory”, an approach that treats the reacting system as a “gas” of reactants diluted in a chemically inert solvent, and discuss the variants of this theory — known as integral encounter theory and modified encounter theory

AB - In this contribution, we give a brief overview of theoretical approaches to diffusion-influenced reactions, focusing on non-stationary (non-Markovian) effects in chemical kinetics. We discuss the origin of such effects and their manifestations. We also introduce the idea of “encounter theory”, an approach that treats the reacting system as a “gas” of reactants diluted in a chemically inert solvent, and discuss the variants of this theory — known as integral encounter theory and modified encounter theory

KW - Chemical kinetics

KW - reactions in solution

KW - diffusion control

U2 - 10.1142/q0209

DO - 10.1142/q0209

M3 - Chapter

SN - 978-1786347008

SP - 65

EP - 96

BT - Chemical Kinetics

A2 - Lindenberg, Katja

A2 - Metzler, Ralf

A2 - Oshanin, Gleb

PB - World Scientific Publishing Europe Ltd.

CY - Singapore

ER -

ID: 23647892