Highly Dispersed Ni on Nitrogen-Doped Carbon for Stable and Selective Hydrogen Generation from Gaseous Formic Acid.
Alina D NishchakovaDmitri A BulushevSvetlana V TrubinaOlga A StonkusYury V ShubinIgor P AsanovVladimir V KriventsovAlexander V OkotrubLyubov G BulushevaPublished in: Nanomaterials (Basel, Switzerland) (2023)
Ni supported on N-doped carbon is rarely studied in traditional catalytic reactions. To fill this gap, we compared the structure of 1 and 6 wt% Ni species on porous N-free and N-doped carbon and their efficiency in hydrogen generation from gaseous formic acid. On the N-free carbon support, Ni formed nanoparticles with a mean size of 3.2 nm. N-doped carbon support contained Ni single-atoms stabilized by four pyridinic N atoms (N 4 -site) and sub-nanosized Ni clusters. Density functional theory calculations confirmed the clustering of Ni when the N 4 -sites were fully occupied. Kinetic studies revealed the same specific Ni mass-based reaction rate for single-atoms and clusters. The N-doped catalyst with 6 wt% of Ni showed higher selectivity in hydrogen production and did not lose activity as compared to the N-free 6 wt% Ni catalyst. The presented results can be used to develop stable Ni catalysts supported on N-doped carbon for various reactions.