Visualizing the Birth and Monitoring the Life of a Bimetallic Methanation Catalyst.
Xiaoliang YanMin CaoSha LiMireille GhoussoubWei SunChengliang MaoRui SongZhe LuXiao ChenWeizhong QianRuifeng LiLu WangGeoffrey A OzinPublished in: Journal of the American Chemical Society (2023)
Well-defined bimetallic heterogeneous catalysts are not only difficult to synthesize in a controlled manner, but their elemental distributions are also notoriously challenging to define. Knowledge of these distributions is required for both the as-synthesized catalyst and its activated form under reaction conditions, where various types of reconstruction can occur. Success in this endeavor requires observation of the active catalyst via in situ analytical methods. As a step toward this goal, we present a composite material composed of bimetallic nickel-ruthenium nanoparticles supported on a protonated zeolite (Ni-Ru/HZSM-5) and probe its evolution and function as a photoactive carbon dioxide methanation catalyst using in situ X-ray absorption spectroscopy (XAS). The working Ni-Ru/HZSM-5, as a selective and durable photothermal CO 2 methanation catalyst, comprises a corona of Ru nanoparticles decorating a Ni nanoparticle core. The specific Ni-Ru interactions in the bimetallic particles were confirmed by in situ XAS, which reveals significant electron transfer from Ni to Ru. The light-harvesting Ni nanoparticle core and electron-accepting Ru nanoparticle corona serve as the CO 2 and H 2 dissociation centers, respectively. These Ni and Ru nanoparticles also promote synergistic photothermal and hydrogen atom transfer effects. Collectively, these effects enable an associative CO 2 methanation reaction pathway while hindering coking and fostering high selectivity toward methane.
Keyphrases
- metal organic framework
- electron transfer
- carbon dioxide
- energy transfer
- cancer therapy
- photodynamic therapy
- highly efficient
- room temperature
- high resolution
- ionic liquid
- reduced graphene oxide
- drug delivery
- quantum dots
- magnetic resonance imaging
- pregnant women
- gold nanoparticles
- molecular dynamics
- magnetic resonance
- living cells
- computed tomography
- electron microscopy