Insights into the structure-property-activity relationship in molybdenum-doped octahedral molecular sieve manganese oxides for catalytic oxidationGenuino, H. C., Valencia, D. & Suib, S. L., 21-Dec-2018, In : Catalysis Science & Technology. 8, 24, p. 6493-6502 10 p.
Research output: Contribution to journal › Article › Academic › peer-review
Hexavalent molybdenum ions substituted into the mixed-valent framework of octahedral molecular sieve manganese oxides (1-10 mol% Mo-K-OMS-2) were systematically prepared via a single-step refluxing method. The structure, composition, morphology, thermal stability, and textural and redox properties of the Mo-K-OMS-2 materials were characterized by various experimental techniques. Density functional theory (DFT) calculations were performed to study the electronic properties of K-OMS-2 materials, including the influence of molybdenum on such properties. The catalytic activity of K-OMS-2 towards CO oxidation dramatically increased with Mo dopant concentration, until an optimum incorporation of 5 mol% was reached, giving full CO conversion at 120 degrees C (1 vol% CO, 1 vol% O-2). More importantly, the activity of the 5% Mo-K-OMS-2 catalyst was (reversibly) inhibited by water vapour (3%) in the feed only at low temperatures and exhibited better tolerance and stability during long-run experiments (28 h) as compared to undoped K-OMS-2. The superior performance of Mo-K-OMS-2 catalyst for CO oxidation can be attributed to the following factors: (1) morphological evolution from nanofibers to nanospheres, as well as the slightly distorted structure, generated a sharp increase in the specific surface area up to 258 m(2) g(-1), hence, increased the number of surface active sites; (2) improved mobility of reactive oxygen species at the surface and enhanced redox properties; and (3) tailored electronic properties promoted more active sites for oxidation reactions, which is supported by DFT calculations.
|Number of pages||10|
|Journal||Catalysis Science & Technology|
|Publication status||Published - 21-Dec-2018|
- CO OXIDATION, LATTICE OXYGEN, OMS-2 CATALYST, METAL-OXIDES, CRYPTOMELANE, HOLLANDITE, EFFICIENT, SILVER, AG, NANOFIBERS