A Cptt‐Based Trioxo‐Rhenium Catalyst for the Deoxydehydration of Diols and Polyols

Jing Li; Martin Lutz; Matthias Otte; Robertus J. M. Klein Gebbink

doi:10.1002/cctc.201801151

A Cptt‐Based Trioxo‐Rhenium Catalyst for the Deoxydehydration of Diols and Polyols

Jing Li
, Martin Lutz
, Matthias Otte
, Robertus J. M. Klein Gebbink

Sub Organic Chemistry and Catalysis

Institut für Anorganische Chemie; University of Göttingen; Tammannstraße 4 Göttingen 37077 Germany

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

Abstract

Trioxo‐rhenium complexes are well known catalysts for the deoxydehydration (DODH) of vicinal diols (glycols). In this work, we report on the DODH of diols and biomass‐derived polyols using CpttReO3 as a new catalyst (Cptt=1,3‐di‐tert‐butylcyclopentadienyl). The DODH reaction was optimized using 2 mol % of CpttReO3 and 3‐octanol as both reductant and solvent. The CpttReO3 catalyst exhibits an excellent activity for biomass‐derived polyols. Specifically, glycerol is almost quantitatively converted to allyl alcohol and mucic acid gives 75 % of muconates at 91 % conversion. In addition, the loading of CpttReO3 can be reduced to 0.1 mol % to achieve a turn‐over number as high as 900 per Re when using glycerol as substrate. Examination of DODH reaction profiles by NMR spectroscopy indicates that catalysis is related to Cp‐ligand release, which raises questions on the nature of the actual catalyst.

Original language	English
Pages (from-to)	4755-4760
Journal	ChemCatChem
Volume	10
Issue number	20
DOIs	https://doi.org/10.1002/cctc.201801151
Publication status	Published - 23 Oct 2018

Keywords

homogenous catalysts
deoxydehydration
bio-mass conversion
trioxo-rhenium complexes
ligand design

Access to Document

10.1002/cctc.201801151

cctc.201801151Final published version, 1.51 MB

Cite this

@article{f022a176d9fd439ebe4fdf20f59f6b37,

title = "A Cptt‐Based Trioxo‐Rhenium Catalyst for the Deoxydehydration of Diols and Polyols",

abstract = "Trioxo‐rhenium complexes are well known catalysts for the deoxydehydration (DODH) of vicinal diols (glycols). In this work, we report on the DODH of diols and biomass‐derived polyols using CpttReO3 as a new catalyst (Cptt=1,3‐di‐tert‐butylcyclopentadienyl). The DODH reaction was optimized using 2 mol \% of CpttReO3 and 3‐octanol as both reductant and solvent. The CpttReO3 catalyst exhibits an excellent activity for biomass‐derived polyols. Specifically, glycerol is almost quantitatively converted to allyl alcohol and mucic acid gives 75 \% of muconates at 91 \% conversion. In addition, the loading of CpttReO3 can be reduced to 0.1 mol \% to achieve a turn‐over number as high as 900 per Re when using glycerol as substrate. Examination of DODH reaction profiles by NMR spectroscopy indicates that catalysis is related to Cp‐ligand release, which raises questions on the nature of the actual catalyst.",

keywords = "homogenous catalysts, deoxydehydration, bio-mass conversion, trioxo-rhenium complexes, ligand design",

author = "Jing Li and Martin Lutz and Matthias Otte and Klein Gebbink, \{Robertus J. M.\}",

year = "2018",

month = oct,

day = "23",

doi = "10.1002/cctc.201801151",

language = "English",

volume = "10",

pages = "4755--4760",

journal = "ChemCatChem",

issn = "1867-3880",

publisher = "Wiley",

number = "20",

}

TY - JOUR

T1 - A Cptt‐Based Trioxo‐Rhenium Catalyst for the Deoxydehydration of Diols and Polyols

AU - Li, Jing

AU - Lutz, Martin

AU - Otte, Matthias

AU - Klein Gebbink, Robertus J. M.

PY - 2018/10/23

Y1 - 2018/10/23

N2 - Trioxo‐rhenium complexes are well known catalysts for the deoxydehydration (DODH) of vicinal diols (glycols). In this work, we report on the DODH of diols and biomass‐derived polyols using CpttReO3 as a new catalyst (Cptt=1,3‐di‐tert‐butylcyclopentadienyl). The DODH reaction was optimized using 2 mol % of CpttReO3 and 3‐octanol as both reductant and solvent. The CpttReO3 catalyst exhibits an excellent activity for biomass‐derived polyols. Specifically, glycerol is almost quantitatively converted to allyl alcohol and mucic acid gives 75 % of muconates at 91 % conversion. In addition, the loading of CpttReO3 can be reduced to 0.1 mol % to achieve a turn‐over number as high as 900 per Re when using glycerol as substrate. Examination of DODH reaction profiles by NMR spectroscopy indicates that catalysis is related to Cp‐ligand release, which raises questions on the nature of the actual catalyst.

AB - Trioxo‐rhenium complexes are well known catalysts for the deoxydehydration (DODH) of vicinal diols (glycols). In this work, we report on the DODH of diols and biomass‐derived polyols using CpttReO3 as a new catalyst (Cptt=1,3‐di‐tert‐butylcyclopentadienyl). The DODH reaction was optimized using 2 mol % of CpttReO3 and 3‐octanol as both reductant and solvent. The CpttReO3 catalyst exhibits an excellent activity for biomass‐derived polyols. Specifically, glycerol is almost quantitatively converted to allyl alcohol and mucic acid gives 75 % of muconates at 91 % conversion. In addition, the loading of CpttReO3 can be reduced to 0.1 mol % to achieve a turn‐over number as high as 900 per Re when using glycerol as substrate. Examination of DODH reaction profiles by NMR spectroscopy indicates that catalysis is related to Cp‐ligand release, which raises questions on the nature of the actual catalyst.

KW - homogenous catalysts

KW - deoxydehydration

KW - bio-mass conversion

KW - trioxo-rhenium complexes

KW - ligand design

U2 - 10.1002/cctc.201801151

DO - 10.1002/cctc.201801151

M3 - Article

SN - 1867-3880

VL - 10

SP - 4755

EP - 4760

JO - ChemCatChem

JF - ChemCatChem

IS - 20

ER -

A Cptt‐Based Trioxo‐Rhenium Catalyst for the Deoxydehydration of Diols and Polyols

Abstract

Keywords

Access to Document

Fingerprint

Cite this