Antioxidant-driven activity and stability enhancement in multiphase bicarbonate hydrogenation catalysis with a Ru-PNP pincer complex

Antioxidant-driven activity and stability enhancement in multiphase bicarbonate hydrogenation catalysis with a Ru-PNP pincer complex

Hirano, Makoto (Nitto Denko Corporation)
Wada, Kazuhito (Nitto Denko Corporation)
Matsuda, Hirokazu (Nitto Denko Corporation)
Pidko, E.A. (TU Delft ChemE/Inorganic Systems Engineering)

2024

Herein, we present a practical strategy to enhance the performance of a multiphase system for bicarbonate hydrogenation based on a molecular Ru-PNP pincer catalyst. This study demonstrates that the use of organic antioxidants not only mitigates catalyst degradation but also significantly boosts its intrinsic activity. This enables efficient catalyst recycling at ultra-low concentrations. Systematic screening and optimization of a range of organic antioxidants has identified TDTBP (tris(2,4-di-tert-butylphenyl) phosphite) as being exceptionally efficient in stabilizing and enhancing the performance of the Ru-PNP catalyst. With the optimized system an unprecedented integral turnover frequency (TOF) of 115,000 h⁻¹ and a total turnover number (TTON) of 9.43×10⁶ across four recycling tests were demonstrated, conducted at a reaction temperature of 90 ºC and H₂ pressure of 50 bar. These findings represent a substantial advancement in sustainable formate/formic acid production, offering a scalable and highly efficient method suitable for industrial-scale application.

Antioxidant
Bicarbonate hydrogenation
Catalyst Stabilization
Multiphase system
Pincer complexes

http://resolver.tudelft.nl/uuid:355aa0ba-550c-4b66-b2c0-f6eaaf3dac74

https://doi.org/10.1016/j.jcou.2024.102718

2212-9820

Journal of CO2 Utilization, 81

Institutional Repository

journal article

© 2024 Makoto Hirano, Kazuhito Wada, Hirokazu Matsuda, E.A. Pidko