Abstract

In the latest decade, the energy requirements have raised, the fact that directly influenced the increase in fossil fuel consumption. Taking into account the pollution problems associated with fossil fuels, biomass resources come as a promising alternative energy source. The biomass to biofuel conversion can be achieved through strategies such as thermochemical (gasification and direct liquefaction) or biological processes. Moreover, catalytic approaches are increasingly used for biofuel production. In this context, the role of nanocatalysts becomes crucial when considering product quality and optimal operating conditions. Novel nanocatalysts with advanced properties can reduce the most common problems encountered in heterogeneous catalysts: unproductiveness, resistance to mass transfer, time-intensive, rapid deactivation. Consequently, the development of new types of nanocatalysts registered a rising trend. This work focuses on biofuels and tackles a series of aspects such as classification, production technologies, and strategies for yield increase in the context nanocatalysts use. Finally, the future outlooks and challenges of biomass conversion processes to biofuels using nanocatalysts were examined.