Abstract
Developing a powerful bifunctional catalyst for tandem reactions is essential to the future carbon neutrality by reducing the energy consumption in chemical industries. Herein, mesoporous zeolite-encapsulated palladium (Pd) nanoparticles (Pd@meso-ZSM-5) synthesized via emulsification-demulsification followed by a dry-gel transformation method were demonstrated to have a remarkable catalytic performance for a one-pot multiple tandem reaction of cyclic ketones (cyclopentanone, cyclohexanone) to bicyclic alkanes (bicyclopentane, bicyclohexane). Compared with supported catalysts (Pd/meso-ZSM-5) and microporous zeolite-encapsulated catalysts (Pd@ZSM-5) with a primary product of monocyclic alkane (cyclopentane, cyclohexane), Pd@meso-ZSM-5 shows much higher catalytic efficiency for the bicyclic alkanes synthesis, which was previously unattainable in the conventional two-step synthesis route. Controlled experiments and detailed characterizations show that mesoporosity provides sufficient space for the generation and diffusion of large molecular intermediates, and the intimate acid-Pd interface promotes the conversion of intermediates. This work proposes a design strategy for a mesoporous zeolite-encapsulated metal catalyst, which efficiently provides cooperative acid-hydrogenation catalysis.
Original language | English |
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Article number | 122982 |
Journal | Applied Catalysis B: Environmental |
Volume | 337 |
DOIs | |
State | Published - Nov 15 2023 |
Funding
Z.Y., T.W., and S.D. were supported by the US DOE Office of Basic Energy Science . Q.D. and H.P. were supported financially by the National Natural Science Foundation of China ( 22178158 , 52162014 , 22065024 , 21976078 ), the Cultivating Project for Academic and Technical Leader of Key Discipline of Jiangxi Province ( 20212BCJ23038 ), the Outstanding Youth Science Fund Project of Jiangxi Province ( S2022ZRYCL0176 ), and the Jiangxi Provincial Double Thousand Talents Plan-Youth Program ( S2021GDQN0947 ).
Keywords
- Aldol condensation
- Bicyclic alkanes
- Cyclic ketones
- Hydrodeoxygenation
- Pd@meso-ZSM-5