Nitrogen species from Spirulina platensis derived bio-oil enhance catalytic activity of cobalt catalysts for hydrogenation.

High nitrogen content in Spirulina platensis -derived bio-oil is a highly undesirable feature in upgrading of bio-oil to biofuel via hydrodeoxygenation. However, the nitrogen species could be potentially used as dopant for tailoring the catalytic behaviors of metallic sites in heterogeneous catalysts. In this study, the nitrogen species in the bio-oil from hydrothermal carbonization (HTC) of Spirulina platensis was used to modify Co-based catalyst for enhancing their catalytic activity for hydrogenation of o -chloronitrobenzene (o -CNB). The results showed that the introduction of N species not only promoted dispersion of Co particles via formation of Co–N sites, but also generated extra pores and significantly increased H 2 uptake. The abundant Co–N sites, high dispersion of Co and higher surface area of N-doped catalyst (CoFeAl–N) jointly contributed to the enhanced catalytic activity for hydrogenation of o -CNB, achieving the yield of 90.3% for o -chloroaniline (o -CA) and lowering the activation energy from 63.0 kJ mol−1 (with N-free CoFeAl catalyst) to 55.1 kJ mol−1. The effectiveness of introducing nitrogen for enhancing catalytic activity for hydrogenation of o -CNB was also confirmed in the experiments for doping Co/Al 2 O 3 (prepared via impregnation) and CoAl (prepared via co-precipitation) catalysts with the Spirulina platensis derived bio-oil. Spirulina platensis derived bio-oil was used as N dopant for modifying cobalt catalysts for the hydrogenation of o-chloronitrobenzene. [Display omitted] • Functionalizing CoFeAl with N from Spirulina platensis bio-oil enhances Co dispersion. • N species react with Co, forming Co–N sites, increasing H 2 uptake by 71.5%. • N species enhances interaction with –NO 2 , lowering E a (12.5%) for hydrogenation. • CoFeAl–N achieves higher o -chloroaniline yield (90.3%) than N-free catalyst (6.0%). • Co–N sites, high dispersion of Co and developed pores enhance the hydrogenation activity. [ABSTRACT FROM AUTHOR]