Journal
ACS CATALYSIS
Volume 12, Issue 10, Pages 5894-5902Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acscatal.2c00785
Keywords
CO2 hydrogenation; bifunctional catalyst; UIO-n membrane; tandem reaction; lower olefins
Categories
Funding
- National Natural Science Foundation of China [21371058, 22179038, 21878090, U1862204]
- Shanghai Municipal Science and Technology Commission [21DZ1206700]
- National Natural Science Foundation of PetroChina [U1862204]
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In the industry, designing synergetic functional nanocatalysts is a desirable strategy to achieve both high activity and selectivity for CO2 hydrogenation. In this study, bicomponent tandem catalysts ZnZrOx/SAPO-34@UIO-n were fabricated to catalyze CO2 conversion into light olefins. The monodispersed SAPO-34 zeolites were used as the core for the growth of the UIO-n shell, resulting in the membrane-encapsulated nanocrystal SAPO-34@UIO-n. By mixing it with ZnZrOx, the ZnZrOx/SAPO-34@UIO-n catalyst was obtained. The presence of stable UIO-n membrane in the bifunctional catalyst adjusted the conversion of CO2 hydrogenation products from paraffins to olefins.
In the industry, designing synergetic functional nanocatalysts is a desirable strategy to achieve both high activity and selectivity for CO2 hydrogenation. Herein, we fabricate the bicomponent tandem catalysts ZnZrOx/SAPO-34@UIO-n (n = 66, 66-NH2, and 67) to catalyze CO2 conversion into light olefins. Monodispersed SAPO-34 zeolites are used as the core for the growth of the UIO-n shell to obtain its membrane-encapsulated nanocrystal, SAPO-34@UIO-n, which is mixed by grinding with ZnZrOx to obtain the ZnZrOx/SAPO-34@UIO-n catalyst. CO2 hydrogenation yielded highly selective C-2-C-4 olefins (80%) for the catalyst ZnZrOx/SAPO-34@UIO-66, whereas 57% C-2-C-4 paraffins were obtained for the catalyst ZnZrOx/SAPO-34 without a UIO-n membrane. The stable UIO-n membrane in the bifunctional catalyst ZnZrOx /SAPO-34@UIO-n adjusted the conversion of CO2 hydrogenation products from paraffins to olefins.
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