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New Strategy Proposed for Direct Synthesis of Alcohols from Reductive Hydroformylation of Alkenes

Mar 21, 2024

Linear alcohols, as an important class of chemical products, play an indispensable role in areas such as food, pharmaceuticals, plasticizers, and lubricants. Direct conversion of readily available alkenes into high-value alcohols is important but challenging in both organic synthesis and industry. One-pot reductive hydroformylation of alkenes provides a facile and atom-economic method for the synthesis of single-carbon homologous alcohols. However, the reaction catalyzed by a stable and efficient heterogeneous catalyst has been underexplored. 

To address the above issue, researchers from the Qingdao Institute of Bioenergy and Bioprocess Technology of the Chinese Academy of Sciences have developed a confined trinuclear Ru site in phosphine-incorporated porous organic polymers for the direct synthesis of alcohols from reductive hydroformylation of alkenes. 

The study was published in ACS Catalysis on March 12.  

The researchers constructed a bench-stable porous organic polymer (POP) by incorporating a specific monophosphine ligand into the scaffold, which serves as both solid ligand and support to prepare a heterogeneous Ru catalyst for one-pot reductive hydroformylation. The monophosphine ligand helps to stabilize atomically dispersed trinuclear Ru sites on POP, resulting in a heterogeneous Ru catalyst with a catalytic performance comparable to its homogeneous counterpart under the same conditions. The catalyst could be easily separated for successive reuse without a significant loss of activity and selectivity.  

In addition, a two-stage temperature-programmed strategy was developed to greatly enhance the selectivity to linear alcohols, which is broadly applicable to terminal, internal, and functionalized olefins.

In this strategy, olefin was converted to the corresponding linear aldehyde at a relatively lower reaction temperature while minimizing the side reactions of isomerization and hydrogenation, thus ensuring for the production of linear alcohol in the second stage with high efficiency and excellent selectivity.

Under optimal reaction conditions, the reductive hydroformylation of 1-hexene as a model reaction was fully completed along with a selectivity to 1-hexanol of up to 95% and a linear to branched alcohol ratio of up to 30.

This work represents a significant advance in the development of heterogeneous catalysts for the direct synthesis of linear alcohols from widely available alkenes.  

Trinuclear Ru-loaded porous organic polymer catalyst is used for the one-pot reductive hydroformylation of olefins to directly linear alcohols. (Image by WANG Zhaozhan)

Contact

KONG Fengru

Qingdao Institute of Bioenergy and Bioprocess Technology

E-mail:

Confined Trinuclear Ru Sites in Phosphine-Incorporated Porous Organic Polymers for the Direct Synthesis of Alcohols from Reductive Hydroformylation of Alkenes

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