Journal
MOLECULAR CATALYSIS
Volume 525, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.mcat.2022.112343
Keywords
Nitrogen-doped; Honeycomb-like porous carbon; Pt nanoparticles; Heterogeneous catalysts; Cinnamaldehyde hydrogenation
Categories
Funding
- National Natural Science Foundation of China [21574042]
- Fundamental Research Funds for the Central Universities [40500-20104-222047]
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In this study, a method for synthesizing Pt NPs supported on 3D-NHPC (1.6 nm) through hyper-crosslinking mediated self-assembly and subsequent in situ pyrolysis reduction is reported. The prepared Pt@3D-NHPC (1.6 nm) catalysts possess a high surface area and hierarchically interconnected porous framework, providing more active sites and short transport paths for substrates. After H2O2 post-treatment, the superhydrophilicity of the Pt@3D-NHPC-H2O2 (1.6 nm) catalysts significantly increases, resulting in enhanced catalytic activity for cinnamaldehyde hydrogenation in aqueous solutions. Moreover, the nitrogen-doping and confinement of the porous framework contribute to the excellent stability and durability of the prepared Pt@3D-NHPC-H2O2 (1.6 nm) catalysts.
The construction of three dimensionally nitrogen-doped honeycomb-like porous carbon (3D-NHPC) materials for metal based heterogeneous catalysts has received substantial attention. However, tailoring these morphologies while retaining catalytic activity and avoiding aggregation of metal nanoparticles (NPs) is still challenging. Herein, we report a synthesis of 3D-NHPC supported Pt NPs (Pt@3D-NHPC (1.6 nm)) through a combination of hyper-crosslinking mediated self-assembly and subsequent in situ pyrolysis reduction. The prepared Pt@3D-NHPC (1.6 nm) catalysts possess a high surface area and hierarchically interconnected porous framework, which can provide more active sites of Pt NPs and short transport paths for substrates. Especially, after a H2O2 post-treatment, the obtained superhydrophilicity of the Pt@3D-NHPC-H2O2 (1.6 nm) catalyst presents significant increase of catalytic activity towards efficient hydrogenation of cinnamaldehyde in aqueous solutions. Moreover, owing to the coordination effect by nitrogen-doping and confinement of the porous framework, the as-prepared Pt@3D-NHPC-H2O2 (1.6 nm) showed excellent stability and durability.
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