Urea-assisted synthesis towards a renewable rice husk silica-derived Ni-phyllosilicate catalyst for CO2 methanation.

In this work, nickel phyllosilicate was prepared through the hydrothermal reaction of rice husk-derived silica (SR) and nickel nitrate. Owing to the loss of surface silanol group on SR during the calcination process, a small amount of Ni-phyllosilicate with Ni content of 10.2 wt% was obtained on N 220 /SR, which was prepared under a very severe hydrothermal condition of 220 °C for 48 h. After the addition of urea, the dense flower-like nanosheets attributing to Ni-phyllosilicate were observed on the surface of N 180 /SR-U-24 with high Ni content of 22.6 wt%, which was prepared under a much milder hydrothermal temperature of 180 °C and a shorter reaction time of 24 h. This was because urea could facilitate the formation of an important intermediate (Ni(OH) 2) and leaching of SiO 2 , resulting in the quick formation of Ni-phyllosilicate. N 180 /SR-U-24 exhibited both good catalytic activity and high long-term stability for CO 2 methanation due to the relatively high Ni content, fine Ni particles and the strong metal-support interaction derived from Ni-phyllosilicate. [Display omitted] • Renewable rice-husk-derived SiO 2 was prepared. • Ni-phyllosilicate was synthesized using two hydrothermal methods with or without urea. • Urea-assisted hydrothermal method was efficient for synthesis of Ni-phyllosilicate. • Urea could facilitate the formation of Ni(OH) 2 and leaching of SiO 2. [ABSTRACT FROM AUTHOR]