Quantum Tunneling in Computational Catalysis and Kinetics: Is it Really Important?

Ashim Nandi; Germán Molpeceres; Prashant K. Gupta; Dan T. Major; Johannes Kästner; Jan M.L. Martin; Sebastian Kozuch

doi:10.1016/B978-0-12-821978-2.00020-9

Quantum Tunneling in Computational Catalysis and Kinetics: Is it Really Important?

Ashim Nandi, Germán Molpeceres, Prashant K. Gupta, Dan T. Major, Johannes Kästner, Jan M.L. Martin, Sebastian Kozuch

Department of Molecular Chemistry and Materials Science

Weizmann Institute of Science

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

Quantum tunneling (QT) is not an effect often considered in chemistry, and rightfully so. However, in many cases it is significant, and in some cases it is even considerable. In this chapter we will describe the basic tenets of QT with a focus on catalysis, followed by some of the most important tools to study and compute them. The chapter goes on to address the title of the chapter by discussing several clear cases of QT for hydrogen-based reactions in organometallic, enzymatic, astrochemical, and organic systems. The insights highlighted in the chapter showcase the importance of QT in specific catalyzed reactions and help uncover the instances that are worth of attention.

Original language	English
Title of host publication	Comprehensive Computational Chemistry
Publisher	Elsevier
Chapter	20
Pages	713-734
Number of pages	22
Volume	4
ISBN (Print)	978-0-12-823256-9
DOIs	https://doi.org/10.1016/B978-0-12-821978-2.00020-9
State	Published - 2024

All Science Journal Classification (ASJC) codes

General Chemistry

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10.1016/B978-0-12-821978-2.00020-9

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title = "Quantum Tunneling in Computational Catalysis and Kinetics: Is it Really Important?",

abstract = "Quantum tunneling (QT) is not an effect often considered in chemistry, and rightfully so. However, in many cases it is significant, and in some cases it is even considerable. In this chapter we will describe the basic tenets of QT with a focus on catalysis, followed by some of the most important tools to study and compute them. The chapter goes on to address the title of the chapter by discussing several clear cases of QT for hydrogen-based reactions in organometallic, enzymatic, astrochemical, and organic systems. The insights highlighted in the chapter showcase the importance of QT in specific catalyzed reactions and help uncover the instances that are worth of attention.",

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T1 - Quantum Tunneling in Computational Catalysis and Kinetics

T2 - Is it Really Important?

AU - Nandi, Ashim

AU - Molpeceres, Germán

AU - Gupta, Prashant K.

AU - Major, Dan T.

AU - Kästner, Johannes

AU - Martin, Jan M.L.

AU - Kozuch, Sebastian

PY - 2024

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AB - Quantum tunneling (QT) is not an effect often considered in chemistry, and rightfully so. However, in many cases it is significant, and in some cases it is even considerable. In this chapter we will describe the basic tenets of QT with a focus on catalysis, followed by some of the most important tools to study and compute them. The chapter goes on to address the title of the chapter by discussing several clear cases of QT for hydrogen-based reactions in organometallic, enzymatic, astrochemical, and organic systems. The insights highlighted in the chapter showcase the importance of QT in specific catalyzed reactions and help uncover the instances that are worth of attention.

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PB - Elsevier

ER -

Quantum Tunneling in Computational Catalysis and Kinetics: Is it Really Important?

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