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Polyoxometalate-HKUST-1 composite derived nanostructured Na-Cu-Mo 2 C catalyst for efficient reverse water gas shift reaction.

Gaje SinghSatyajit PandaSiddharth SapanJogender SinghPranay Rajendra ChandewarAnkush V BiradarDebaprasad SheeJyotishman Kaishyop
Published in: Nanoscale (2024)
Transforming CO 2 to CO via reverse water-gas shift (RWGS) reaction is widely regarded as a promising technique for improving the efficiency and economics of CO 2 utilization processes. Moreover, it is also considered as a pathway towards e-fuels. Cu-oxide catalysts are widely explored for low-temperature RWGS reactions; nevertheless, they tend to deactivate significantly under applied reaction conditions due to the agglomeration of copper particles at elevated temperatures. Herein, we have synthesized homogeneously distributed Cu metallic nanoparticles supported on Mo 2 C for the RWGS reaction by a unique approach of in situ carburization of metal-organic frameworks (MOFs) using a Cu-based MOF i.e. HKUST-1 encapsulating molybdenum-based polyoxometalates. The newly derived Na-Cu-Mo 2 C nanocomposite catalyst system exhibits excellent catalytic performance with a CO production rate of 3230.0 mmol g cat -1 h -1 with 100% CO selectivity. Even after 250 h of a stability test, the catalyst remained active with more than 80% of its initial activity.
Keyphrases
  • metal organic framework
  • room temperature
  • carbon dioxide
  • highly efficient
  • mass spectrometry
  • solid phase extraction