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Highly Efficient Ru-Based Catalysts for Lactic Acid Conversion to Alanine.

Iunia PodoleanMara DogaruNicolae Cristian GuzoOana Adriana PetcutaElisabeth Egholm JacobsenAdela NicolaevBogdan CojocaruMadalina TudoracheVasile I ParvulescuSimona M Coman
Published in: Nanomaterials (Basel, Switzerland) (2024)
The primary objective of this research was to develop efficient solid catalysts that can directly convert the lactic acid (LA) obtained from lignocellulosic biomass into alanine (AL) through a reductive amination process. To achieve this, various catalysts based on ruthenium were synthesized using different carriers such as multi-walled carbon nanotubes (MWCNTs), beta-zeolite, and magnetic nanoparticles (MNPs). Among these catalysts, Ru/MNP demonstrated a remarkable yield of 74.0% for alanine at a temperature of 200 °C. This yield was found to be superior not only to the Ru/CNT (55.7%) and Ru/BEA (6.6%) catalysts but also to most of the previously reported catalysts. The characterization of the catalysts and their catalytic results revealed that metallic ruthenium nanoparticles, which were highly dispersed on the external surface of the magnetic carrier, significantly enhanced the catalyst's ability for dehydrogenation. Additionally, the -NH 2 basic sites on the catalyst further facilitated the formation of alanine by promoting the adsorption of acidic reactants. Furthermore, the catalyst could be easily separated using an external magnetic field and exhibited the potential for multiple reuses without any significant loss in its catalytic performance. These practical advantages further enhance its appeal for applications in the reductive amination of lactic acid to alanine.
Keyphrases
  • highly efficient
  • lactic acid
  • walled carbon nanotubes
  • metal organic framework
  • ionic liquid
  • visible light