Organocatalyzed Diels-Alder Reactions: Unexplored Hydrogen Bond Donor Catalysts

Eveline H. Tiekink; Ron Verdijk; Trevor A. Hamlin; F. Matthias Bickelhaupt

doi:10.1002/cplu.202500081

Organocatalyzed Diels-Alder Reactions: Unexplored Hydrogen Bond Donor Catalysts

Eveline H. Tiekink
, Ron Verdijk
, Trevor A. Hamlin^*
, F. Matthias Bickelhaupt^*

^*Corresponding author for this work

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

We have quantum chemically investigated the catalytic effect of hydrogen bonding organocatalysts, (H₂N)₂C=X (X=O, S, Se, NH, PH, AsH, CH₂, SiH₂ GeH₂), such as urea, on the classic Diels-Alder reaction. All studied hydrogen bond donor catalysts enhance the Diels-Alder reaction between acrolein and 1,3-butadiene to a similar extent. Our activation strain and Kohn-Sham molecular orbital analyses show that these organocatalysts lower the reaction barrier by polarizing the π-orbitals away from the reactive carbon atoms of acrolein, reducing the Pauli repulsion between the reactants. Interestingly, this catalytic mechanism is not limited to >C=X moieties with relatively electronegative X (e. g., O, S, NH) but extends to situations like >C=CH₂ and even >C=SiH₂.

Original language	English
Article number	e202500081
Pages (from-to)	1-7
Number of pages	7
Journal	ChemPlusChem
Volume	90
Issue number	6
Early online date	12 Mar 2025
DOIs	https://doi.org/10.1002/cplu.202500081
Publication status	Published - Jun 2025

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Publisher Copyright:
© 2025 The Author(s). ChemPlusChem published by Wiley-VCH GmbH.

Keywords

Activation strain analysis
Activation strain model
Density functional calculations
Diels-Alder reactions
Organocatalysis

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title = "Organocatalyzed Diels-Alder Reactions: Unexplored Hydrogen Bond Donor Catalysts",

abstract = "We have quantum chemically investigated the catalytic effect of hydrogen bonding organocatalysts, (H2N)2C=X (X=O, S, Se, NH, PH, AsH, CH2, SiH2 GeH2), such as urea, on the classic Diels-Alder reaction. All studied hydrogen bond donor catalysts enhance the Diels-Alder reaction between acrolein and 1,3-butadiene to a similar extent. Our activation strain and Kohn-Sham molecular orbital analyses show that these organocatalysts lower the reaction barrier by polarizing the π-orbitals away from the reactive carbon atoms of acrolein, reducing the Pauli repulsion between the reactants. Interestingly, this catalytic mechanism is not limited to >C=X moieties with relatively electronegative X (e. g., O, S, NH) but extends to situations like >C=CH2 and even >C=SiH2.",

keywords = "Activation strain analysis, Activation strain model, Density functional calculations, Diels-Alder reactions, Organocatalysis",

author = "Tiekink, \{Eveline H.\} and Ron Verdijk and Hamlin, \{Trevor A.\} and Bickelhaupt, \{F. Matthias\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). ChemPlusChem published by Wiley-VCH GmbH.",

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AU - Tiekink, Eveline H.

AU - Verdijk, Ron

AU - Hamlin, Trevor A.

AU - Bickelhaupt, F. Matthias

PY - 2025/6

Y1 - 2025/6

N2 - We have quantum chemically investigated the catalytic effect of hydrogen bonding organocatalysts, (H2N)2C=X (X=O, S, Se, NH, PH, AsH, CH2, SiH2 GeH2), such as urea, on the classic Diels-Alder reaction. All studied hydrogen bond donor catalysts enhance the Diels-Alder reaction between acrolein and 1,3-butadiene to a similar extent. Our activation strain and Kohn-Sham molecular orbital analyses show that these organocatalysts lower the reaction barrier by polarizing the π-orbitals away from the reactive carbon atoms of acrolein, reducing the Pauli repulsion between the reactants. Interestingly, this catalytic mechanism is not limited to >C=X moieties with relatively electronegative X (e. g., O, S, NH) but extends to situations like >C=CH2 and even >C=SiH2.

AB - We have quantum chemically investigated the catalytic effect of hydrogen bonding organocatalysts, (H2N)2C=X (X=O, S, Se, NH, PH, AsH, CH2, SiH2 GeH2), such as urea, on the classic Diels-Alder reaction. All studied hydrogen bond donor catalysts enhance the Diels-Alder reaction between acrolein and 1,3-butadiene to a similar extent. Our activation strain and Kohn-Sham molecular orbital analyses show that these organocatalysts lower the reaction barrier by polarizing the π-orbitals away from the reactive carbon atoms of acrolein, reducing the Pauli repulsion between the reactants. Interestingly, this catalytic mechanism is not limited to >C=X moieties with relatively electronegative X (e. g., O, S, NH) but extends to situations like >C=CH2 and even >C=SiH2.

KW - Activation strain analysis

KW - Activation strain model

KW - Density functional calculations

KW - Diels-Alder reactions

KW - Organocatalysis

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Organocatalyzed Diels-Alder Reactions: Unexplored Hydrogen Bond Donor Catalysts

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