Efficient one-pot synthesis of ruthenium catalysts and their role in optimizing sugar alcohol production: Investigating structural sensitivity

J. L. Santos; D. Yu Murzin; M. A. Centeno

doi:10.1016/j.gresc.2024.11.009

Efficient one-pot synthesis of ruthenium catalysts and their role in optimizing sugar alcohol production: Investigating structural sensitivity

J. L. Santos^*, D. Yu Murzin, M. A. Centeno

^*Corresponding author for this work

Laboratory of Industrial Chemistry and Reaction Engineering

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

Abstract

The study explores the feasibility of producing ruthenium catalysts supported on char through a one-pot synthesis, an original approach for the preparation of noble metal-based catalysts in this field. This method combines high-temperature stages, such as catalytic support carburization and catalyst activation, in a single step. The innovation represents a significant advancement in utilizing cellulose as a model of waste biomass, enhancing its value, and reducing catalyst production costs. The one-pot catalysts were successfully tested in the hydrogenation reaction of sugar mixtures (L-Arabinose and D-Galactose) under mild conditions, achieving full selectivities. The research also introduces for the first time in that reaction a structural sensitivity analysis of the reaction, comparing experimental results with a theoretical model. The findings reveal a direct correlation between catalytic activity and the {0001} exposed face of hcp ruthenium nanoclusters. This discovery opens new avenues for industrial-scale catalyst development, promising substantial reductions in energy and production costs, and emphasizing the economic appeal of the process.

Original language	English
Journal	Green Synthesis and Catalysis
DOIs	https://doi.org/10.1016/j.gresc.2024.11.009
Publication status	Accepted/In press - 2025
MoE publication type	A1 Journal article-refereed

Funding

Financial support for this work was obtained from Spanish Ministerio de Ciencia e Innovación (No. MCIN/AEI (10.13039/501100011033)/FEDER Funds una manera de hacer Europa), Project PID2020-113809RB-C32 and Junta de Andalucía via Consejería de EconómTransformación ica, Industria, Conocimiento y Universidades and its PAIDI 2020 program (No. P18-RT-3405) all co-financed by FEDER funds from the European Union. Financial support for this work was obtained from Spanish Ministerio de Ciencia e Innovación (No. MCIN/AEI (10.13039/501100011033)/FEDER Funds una manera de hacer Europa), Project PID2020-113809RB-C32 and Junta de Andalucía via Consejería de Transformación Económica, Industria, Conocimiento y Universidades and its PAIDI 2020 program (No. P18-RT-3405) all co-financed by FEDER funds from the European Union.

Keywords

One-pot synthesis
Ruthenium carbon catalysts
Structure-sensitivity
Sugar mixture hydrogenation

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10.1016/j.gresc.2024.11.009

Cite this

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title = "Efficient one-pot synthesis of ruthenium catalysts and their role in optimizing sugar alcohol production: Investigating structural sensitivity",

abstract = "The study explores the feasibility of producing ruthenium catalysts supported on char through a one-pot synthesis, an original approach for the preparation of noble metal-based catalysts in this field. This method combines high-temperature stages, such as catalytic support carburization and catalyst activation, in a single step. The innovation represents a significant advancement in utilizing cellulose as a model of waste biomass, enhancing its value, and reducing catalyst production costs. The one-pot catalysts were successfully tested in the hydrogenation reaction of sugar mixtures (L-Arabinose and D-Galactose) under mild conditions, achieving full selectivities. The research also introduces for the first time in that reaction a structural sensitivity analysis of the reaction, comparing experimental results with a theoretical model. The findings reveal a direct correlation between catalytic activity and the \{0001\} exposed face of hcp ruthenium nanoclusters. This discovery opens new avenues for industrial-scale catalyst development, promising substantial reductions in energy and production costs, and emphasizing the economic appeal of the process.",

keywords = "One-pot synthesis, Ruthenium carbon catalysts, Structure-sensitivity, Sugar mixture hydrogenation",

author = "Santos, \{J. L.\} and Murzin, \{D. Yu\} and Centeno, \{M. A.\}",

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T2 - Investigating structural sensitivity

AU - Santos, J. L.

AU - Murzin, D. Yu

AU - Centeno, M. A.

PY - 2025

Y1 - 2025

N2 - The study explores the feasibility of producing ruthenium catalysts supported on char through a one-pot synthesis, an original approach for the preparation of noble metal-based catalysts in this field. This method combines high-temperature stages, such as catalytic support carburization and catalyst activation, in a single step. The innovation represents a significant advancement in utilizing cellulose as a model of waste biomass, enhancing its value, and reducing catalyst production costs. The one-pot catalysts were successfully tested in the hydrogenation reaction of sugar mixtures (L-Arabinose and D-Galactose) under mild conditions, achieving full selectivities. The research also introduces for the first time in that reaction a structural sensitivity analysis of the reaction, comparing experimental results with a theoretical model. The findings reveal a direct correlation between catalytic activity and the {0001} exposed face of hcp ruthenium nanoclusters. This discovery opens new avenues for industrial-scale catalyst development, promising substantial reductions in energy and production costs, and emphasizing the economic appeal of the process.

AB - The study explores the feasibility of producing ruthenium catalysts supported on char through a one-pot synthesis, an original approach for the preparation of noble metal-based catalysts in this field. This method combines high-temperature stages, such as catalytic support carburization and catalyst activation, in a single step. The innovation represents a significant advancement in utilizing cellulose as a model of waste biomass, enhancing its value, and reducing catalyst production costs. The one-pot catalysts were successfully tested in the hydrogenation reaction of sugar mixtures (L-Arabinose and D-Galactose) under mild conditions, achieving full selectivities. The research also introduces for the first time in that reaction a structural sensitivity analysis of the reaction, comparing experimental results with a theoretical model. The findings reveal a direct correlation between catalytic activity and the {0001} exposed face of hcp ruthenium nanoclusters. This discovery opens new avenues for industrial-scale catalyst development, promising substantial reductions in energy and production costs, and emphasizing the economic appeal of the process.

KW - One-pot synthesis

KW - Ruthenium carbon catalysts

KW - Structure-sensitivity

KW - Sugar mixture hydrogenation

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DO - 10.1016/j.gresc.2024.11.009

M3 - Article

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SN - 2666-5549

JO - Green Synthesis and Catalysis

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ER -

Efficient one-pot synthesis of ruthenium catalysts and their role in optimizing sugar alcohol production: Investigating structural sensitivity

Abstract

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Keywords

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