Nanostructured catalysts have attracted the increased attention for biomass conversion into high-valued chemicals due to the rapid depletion of fossil resources and increasingly severe environmental issues. Supercritical carbon dioxide (scCO2) fluid is an attractive medium for synthesizing nanostructured materials due to its favorable properties. In this review, the properties of scCO2 and the roles of scCO2 in the fabrication of metal nanoparticles were assessed in detailed. A general overview of the synthesis of different types of metal nanoparticles (including metal oxide nanoparticles) using scCO2 and the relationship between the structure of the obtained metal nanoparticles and the preparation conditions such as reaction temperature and pressure, types of metal precursors, and deposition time are system summarized and compared in tables. Besides, compared to the meatal catalysts using the conventional methods, the catalysts obtained using scCO2 exhibited excellent catalytic performance on biomass conversion reactions, mainly focused on oxidation, hydrogenation reactions. Finally, opportunities and challenges of metal nanoparticle preparation using scCO2 for biomass valorization to chemicals and liquid fuels are highlighted. This review could be helpful for the rational design of more efficient metal catalysts for the selective synthesis of fine chemicals and fuels from biomass-derived chemicals.

66 pages, 21 figures