Pd-Catalyzed Telomerization of 1,3-Dienes with Multifunctional Renewable Substrates: Versatile Routes for the Valorization of Biomass-Derived Platform Molecules

P.C.A. Bruijnincx; R. Jastrzebski; P.J.C. Hausoul; R.J.M. Klein Gebbink; B.M. Weckhuysen

doi:10.1007/978-3-642-28288-1_2

Pd-Catalyzed Telomerization of 1,3-Dienes with Multifunctional Renewable Substrates: Versatile Routes for the Valorization of Biomass-Derived Platform Molecules

P.C.A. Bruijnincx, R. Jastrzebski, P.J.C. Hausoul, R.J.M. Klein Gebbink, B.M. Weckhuysen

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

Abstract

The dimerization of 1,3-dienes (e.g. butadiene) with the addition of a protic nucleophile (e.g. methanol) yields 2,7-octadienyl ethers in the so-called telomerization reaction. This reaction is most efficiently catalyzed by homogeneous palladium complexes. The field has experienced a renaissance in recent years as many of the platform molecules that can be renewably obtained from biomass are well-suited to act as multifunctional nucleophiles in this reaction. In addition, the process adheres to many of the principles of green chemistry, given that the reaction is 100% atom efficient and produces little waste. The telomerization reaction thus provides a versatile route for the production of valuable bulk and specialty chemicals that are (at least partly) green and renewable. The use of various multifunctional substrates that can be obtained from biomass is covered in this review, as well as mechanistic aspects of the telomerization reaction.

Original language	English
Title of host publication	Organometallics And Renewables
Editors	MAR Meier, BM Weckhuysen, PCA Bruijnincx
Publisher	Springer Nature
Pages	45-101
Number of pages	57
ISBN (Print)	978-3-642-28287-4
DOIs	https://doi.org/10.1007/978-3-642-28288-1_2
Publication status	Published - 2012

Publication series

Name	Topics in Organometallic Chemistry
Publisher	Springer Verlag
Volume	39
ISSN (Print)	1436-6002

Keywords

Biomass
Butadiene
Oxygenates
Palladium
Telomerization

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1007/978-3-642-28288-1_2

Cite this

Bruijnincx, P. C. A., Jastrzebski, R., Hausoul, P. J. C., Klein Gebbink, R. J. M., & Weckhuysen, B. M. (2012). Pd-Catalyzed Telomerization of 1,3-Dienes with Multifunctional Renewable Substrates: Versatile Routes for the Valorization of Biomass-Derived Platform Molecules. In MAR. Meier, BM. Weckhuysen, & PCA. Bruijnincx (Eds.), Organometallics And Renewables (pp. 45-101). (Topics in Organometallic Chemistry; Vol. 39). Springer Nature. https://doi.org/10.1007/978-3-642-28288-1_2

Bruijnincx, P.C.A. ; Jastrzebski, R. ; Hausoul, P.J.C. et al. / Pd-Catalyzed Telomerization of 1,3-Dienes with Multifunctional Renewable Substrates : Versatile Routes for the Valorization of Biomass-Derived Platform Molecules. Organometallics And Renewables. editor / MAR Meier ; BM Weckhuysen ; PCA Bruijnincx. Springer Nature, 2012. pp. 45-101 (Topics in Organometallic Chemistry).

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abstract = "The dimerization of 1,3-dienes (e.g. butadiene) with the addition of a protic nucleophile (e.g. methanol) yields 2,7-octadienyl ethers in the so-called telomerization reaction. This reaction is most efficiently catalyzed by homogeneous palladium complexes. The field has experienced a renaissance in recent years as many of the platform molecules that can be renewably obtained from biomass are well-suited to act as multifunctional nucleophiles in this reaction. In addition, the process adheres to many of the principles of green chemistry, given that the reaction is 100\% atom efficient and produces little waste. The telomerization reaction thus provides a versatile route for the production of valuable bulk and specialty chemicals that are (at least partly) green and renewable. The use of various multifunctional substrates that can be obtained from biomass is covered in this review, as well as mechanistic aspects of the telomerization reaction.",

keywords = "Biomass, Butadiene, Oxygenates, Palladium, Telomerization",

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Bruijnincx, PCA, Jastrzebski, R, Hausoul, PJC, Klein Gebbink, RJM & Weckhuysen, BM 2012, Pd-Catalyzed Telomerization of 1,3-Dienes with Multifunctional Renewable Substrates: Versatile Routes for the Valorization of Biomass-Derived Platform Molecules. in MAR Meier, BM Weckhuysen & PCA Bruijnincx (eds), Organometallics And Renewables. Topics in Organometallic Chemistry, vol. 39, Springer Nature, pp. 45-101. https://doi.org/10.1007/978-3-642-28288-1_2

Pd-Catalyzed Telomerization of 1,3-Dienes with Multifunctional Renewable Substrates: Versatile Routes for the Valorization of Biomass-Derived Platform Molecules. / Bruijnincx, P.C.A.; Jastrzebski, R.; Hausoul, P.J.C. et al.
Organometallics And Renewables. ed. / MAR Meier; BM Weckhuysen; PCA Bruijnincx. Springer Nature, 2012. p. 45-101 (Topics in Organometallic Chemistry; Vol. 39).

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

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AU - Jastrzebski, R.

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N2 - The dimerization of 1,3-dienes (e.g. butadiene) with the addition of a protic nucleophile (e.g. methanol) yields 2,7-octadienyl ethers in the so-called telomerization reaction. This reaction is most efficiently catalyzed by homogeneous palladium complexes. The field has experienced a renaissance in recent years as many of the platform molecules that can be renewably obtained from biomass are well-suited to act as multifunctional nucleophiles in this reaction. In addition, the process adheres to many of the principles of green chemistry, given that the reaction is 100% atom efficient and produces little waste. The telomerization reaction thus provides a versatile route for the production of valuable bulk and specialty chemicals that are (at least partly) green and renewable. The use of various multifunctional substrates that can be obtained from biomass is covered in this review, as well as mechanistic aspects of the telomerization reaction.

AB - The dimerization of 1,3-dienes (e.g. butadiene) with the addition of a protic nucleophile (e.g. methanol) yields 2,7-octadienyl ethers in the so-called telomerization reaction. This reaction is most efficiently catalyzed by homogeneous palladium complexes. The field has experienced a renaissance in recent years as many of the platform molecules that can be renewably obtained from biomass are well-suited to act as multifunctional nucleophiles in this reaction. In addition, the process adheres to many of the principles of green chemistry, given that the reaction is 100% atom efficient and produces little waste. The telomerization reaction thus provides a versatile route for the production of valuable bulk and specialty chemicals that are (at least partly) green and renewable. The use of various multifunctional substrates that can be obtained from biomass is covered in this review, as well as mechanistic aspects of the telomerization reaction.

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KW - Butadiene

KW - Oxygenates

KW - Palladium

KW - Telomerization

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A2 - Meier, MAR

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PB - Springer Nature

ER -

Bruijnincx PCA, Jastrzebski R, Hausoul PJC, Klein Gebbink RJM , Weckhuysen BM. Pd-Catalyzed Telomerization of 1,3-Dienes with Multifunctional Renewable Substrates: Versatile Routes for the Valorization of Biomass-Derived Platform Molecules. In Meier MAR, Weckhuysen BM, Bruijnincx PCA, editors, Organometallics And Renewables. Springer Nature. 2012. p. 45-101. (Topics in Organometallic Chemistry). doi: 10.1007/978-3-642-28288-1_2

Pd-Catalyzed Telomerization of 1,3-Dienes with Multifunctional Renewable Substrates: Versatile Routes for the Valorization of Biomass-Derived Platform Molecules

Abstract

Publication series

Keywords

UN SDGs

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