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CC3 porous organic cage crystals and membranes for the non-thermal plasma catalytic ammonia synthesis

Fnu Gorky, Hoang M. Nguyen, Jolie Lucero, Shelby R. Guthrie, James M. Crawford, Moisés A. Carreón, Maria L. Carreon

2022Chemical Engineering Journal Advances35 citationsDOIOpen Access PDF

Abstract

Ammonia is considered a basic building block for fertilizers. Also, it is an economically efficient and technologically suitable solution for energy storage and transportation. Non-thermal plasma-driven catalysis powered by renewable energy is considered as a green alternative to the conventional Haber-Bosch process for ammonia synthesis. The main challenge in this electron-mediated route is the low ammonia synthesis production, given the plasma-induced decomposition of the freshly generated ammonia during the reaction. Herein we report the plasma-assisted ammonia synthesis in a dielectric barrier discharge reactor packed with CC3 crystals, a prototypical porous organic cage, and a molecular-sieve membrane fabricated from the same CC3 material. The CC3 crystals delivered the highest ammonia synthesis rate (0.06 μmol min−1 m−2) compared to other microporous catalysts such as zeolite (SAPO-34) and metal-organic frameworks (ZIF-8, ZIF-67) (below 0.02 μmol min−1 m−2). The CC3 porous cage with well-defined octahedral crystal geometry provides partial protection while the CC3 membrane offers both adsorption and separation effects for the freshly formed ammonia from its in-situ decomposition, securing an excellent ammonia synthesis rate of 20.3 μmol min−1 m−2. The findings from this work unfolds novel insights into rational designs of advanced porous catalyst and membrane for plasma-driven catalytic ammonia synthesis in a sustainable and efficient way.

Topics & Concepts

AmmoniaCatalysisAmmonia productionMicroporous materialChemical engineeringMembranePorosityNonthermal plasmaChemistryInorganic chemistryZeoliteMaterials sciencePlasmaOrganic chemistryBiochemistryQuantum mechanicsPhysicsEngineeringAmmonia Synthesis and Nitrogen ReductionMXene and MAX Phase MaterialsAdvanced Photocatalysis Techniques
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