Substituted anilides from chitin-based 3-acetamido-furfural

Cornelis van der Loo; Jeya Prathap Kaniraj; Ting Wang; Kees Pouwer; Onno Broekman; Mark  Borst; André Heeres; Peter Deuss; Adriaan Minnaard

doi:10.1039/d3ob01461d

Substituted anilides from chitin-based 3-acetamido-furfural

Cornelis van der Loo, Jeya Prathap Kaniraj, Ting Wang, Kees Pouwer, Onno Broekman, Mark Borst, André Heeres, Peter Deuss, Adriaan Minnaard

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

Abstract

The synthesis of aromatic compounds from biomass-derived furans is a key strategy in the pursuit of a sustainable economy. Within this field, a Diels–Alder/aromatization cascade reaction with chitin-based furans is emerging as a powerful tool for the synthesis of nitrogen-containing aromatics. In this study we present the conversion of chitin-based 3-acetamido-furfural (3A5F) into an array of di- and tri-substituted anilides in good to high yields (62–90%) via a hydrazone mediated Diels–Alder/aromatization sequence. The addition of acetic anhydride expands the dienophile scope and improves yields. Moreover, replacing the typically used dimethyl hydrazone with its pyrrolidine analogue, shortens reaction times and further increases yields. The hydrazone auxiliary is readily converted into either an aldehyde or a nitrile group, thereby providing a plethora of functionalized anilides. The developed procedure was also applied to 3-acetamido-5-acetylfuran (3A5AF) to successfully prepare a phthalimide.

Original language	English
Pages (from-to)	8372-8378
Number of pages	7
Journal	Organic and Biomolecular Chemistry
Volume	21
Issue number	41
DOIs	https://doi.org/10.1039/d3ob01461d
Publication status	Published - 5 Oct 2023

Keywords

chitine
biobased
anilides
green chemistry
furfural
aromatic compounds
aromatics

Access to Document

10.1039/d3ob01461dLicence: CC BY

1 Active

VECH - Verduurzaming van de Chemie
Heeres, A. (PI)
1/11/21 → 1/11/29
Project: Research

13 Article
1 Poster
1 Digital or Visual Products
1 Patent

Hanze Impact Podcast: #6 Groene Chemie met André Heeres en Janneke Krooneman
Krooneman, J. (Performer) & Heeres, A. (Performer), 19 May 2023
Research output: Non-textual form › Digital or Visual Products › Professional
Advantages of Producing Aromatics from Propene over Ethene Using Zeolite-Based Catalysts
Butolia, P. S., Xi, X., Winkelman, J. G. M., Stuart, M. C. A., van Akker, M., Heeres, A., Heeres, H. J. & Xie, J., 11 Oct 2022, In: Chemie Ingenieur Technik - CIT. 94, 11, p. 1845-1852 8 p.
Research output: Contribution to journal › Article › Academic › peer-review

Open Access
A time- and space-resolved catalyst deactivation study on the conversion of glycerol to aromatics using H-ZSM-5
He, S., Goldhoorn, H. R., Tegudeer, Z., Chandel, A., Heeres, A., Stuart, M. C. A. & Heeres, H. J., 15 Apr 2022, In: Chemical Engineering Journal. 434, 134620.
Research output: Contribution to journal › Article › Academic › peer-review

Open Access

2 Invited talk
1 Oral presentation

Biobased/circular chemistry at the Hanze.
Heeres, A. (Speaker) & Keller, E. (Speaker)
2 Jun 2023
Activity: Talk or presentation › Invited talk
Sustainable building blocks at the Hanze
Heeres, A. (Speaker)
6 Jun 2023
Activity: Talk or presentation › Oral presentation
Barn Talk Towards Renewable Molecules: Koppeling van de energiesector aan de chemische sector (materialentransitie)
Heeres, A. (Speaker) & Krooneman, J. (Speaker)
12 Apr 2023
Activity: Talk or presentation › Invited talk

Heeres-broers werken samen aan Hanze en RUG: 'Je krijgt twee voor de prijs van één'
Heeres, A. & Heeres , E.
11/04/23
1 item of Media coverage
Press/Media: Public Engagement Activities
Frontrunner voor biotechnologen
Krooneman, J. & Heeres, A.
16/02/22
1 Media contribution
Press/Media: Expert Comment
Lunch met de Lector
Keller, E. & Heeres, A.
15/06/21
1 Media contribution
Press/Media: Public Engagement Activities

Groene Groninger
Heeres, A. (Recipient), 3 Dec 2020
Prize: Prize (including medals and awards)

Cite this

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title = "Substituted anilides from chitin-based 3-acetamido-furfural",

abstract = "The synthesis of aromatic compounds from biomass-derived furans is a key strategy in the pursuit of a sustainable economy. Within this field, a Diels–Alder/aromatization cascade reaction with chitin-based furans is emerging as a powerful tool for the synthesis of nitrogen-containing aromatics. In this study we present the conversion of chitin-based 3-acetamido-furfural (3A5F) into an array of di- and tri-substituted anilides in good to high yields (62–90%) via a hydrazone mediated Diels–Alder/aromatization sequence. The addition of acetic anhydride expands the dienophile scope and improves yields. Moreover, replacing the typically used dimethyl hydrazone with its pyrrolidine analogue, shortens reaction times and further increases yields. The hydrazone auxiliary is readily converted into either an aldehyde or a nitrile group, thereby providing a plethora of functionalized anilides. The developed procedure was also applied to 3-acetamido-5-acetylfuran (3A5AF) to successfully prepare a phthalimide.",

keywords = "chitine, biobased, groene chemie, aniliden, furfural, aromatische verbindingen, aromaten, chitine, biobased, anilides, green chemistry, furfural, aromatic compounds, aromatics",

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AU - van der Loo, Cornelis

AU - Kaniraj, Jeya Prathap

AU - Wang, Ting

AU - Pouwer, Kees

AU - Broekman, Onno

AU - Borst, Mark

AU - Heeres, André

AU - Deuss, Peter

AU - Minnaard, Adriaan

PY - 2023/10/5

Y1 - 2023/10/5

N2 - The synthesis of aromatic compounds from biomass-derived furans is a key strategy in the pursuit of a sustainable economy. Within this field, a Diels–Alder/aromatization cascade reaction with chitin-based furans is emerging as a powerful tool for the synthesis of nitrogen-containing aromatics. In this study we present the conversion of chitin-based 3-acetamido-furfural (3A5F) into an array of di- and tri-substituted anilides in good to high yields (62–90%) via a hydrazone mediated Diels–Alder/aromatization sequence. The addition of acetic anhydride expands the dienophile scope and improves yields. Moreover, replacing the typically used dimethyl hydrazone with its pyrrolidine analogue, shortens reaction times and further increases yields. The hydrazone auxiliary is readily converted into either an aldehyde or a nitrile group, thereby providing a plethora of functionalized anilides. The developed procedure was also applied to 3-acetamido-5-acetylfuran (3A5AF) to successfully prepare a phthalimide.

AB - The synthesis of aromatic compounds from biomass-derived furans is a key strategy in the pursuit of a sustainable economy. Within this field, a Diels–Alder/aromatization cascade reaction with chitin-based furans is emerging as a powerful tool for the synthesis of nitrogen-containing aromatics. In this study we present the conversion of chitin-based 3-acetamido-furfural (3A5F) into an array of di- and tri-substituted anilides in good to high yields (62–90%) via a hydrazone mediated Diels–Alder/aromatization sequence. The addition of acetic anhydride expands the dienophile scope and improves yields. Moreover, replacing the typically used dimethyl hydrazone with its pyrrolidine analogue, shortens reaction times and further increases yields. The hydrazone auxiliary is readily converted into either an aldehyde or a nitrile group, thereby providing a plethora of functionalized anilides. The developed procedure was also applied to 3-acetamido-5-acetylfuran (3A5AF) to successfully prepare a phthalimide.

KW - chitine

KW - biobased

KW - groene chemie

KW - aniliden

KW - furfural

KW - aromatische verbindingen

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KW - biobased

KW - anilides

KW - green chemistry

KW - furfural

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DO - 10.1039/d3ob01461d

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ER -

Substituted anilides from chitin-based 3-acetamido-furfural

Abstract

Keywords

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