Rational Design of a Novel Catalyst Cu‐SAPO‐42 for NH₃‐SCR Reaction

Abstract: vehicles have become stricter. At present, selective catalytic reduction of NO x with ammonia (NH 3-SCR) has been regarded as the most efficient technology to facilitate the NO x reduction in oxygen-rich exhaust released from diesel engines. [1-4] Metal-exchanged conventional aluminosilicate zeolites or silicoaluminophosphates (SAPO) molecular sieves (MSs) have been extensively investigated for catalyzing this reaction. Zeolites or SAPO MSs are a class of crystalline microporous materials with well-defined cav… Show more

“…For example, a 1D 12-ring aluminophosphate molecular sieve UiO-6 (OSI) and a 1D 8-ring aluminosilicate ERS-7 (ESV) were solved by simulated annealing algorithm [28,29]. Recently, it has been extended to investigate host-guest interactions in the crystalline porous materials [30,31]. After determining the initial positions of OSDAs, such parameters as atomic coordinates (framework atoms and guest species), unit cell dimensions, peak shape functions, background, etc.…”

Constrained Al sites in FER-type zeolites

“…For example, a 1D 12-ring aluminophosphate molecular sieve UiO-6 (OSI) and a 1D 8-ring aluminosilicate ERS-7 (ESV) were solved by simulated annealing algorithm [28,29]. Recently, it has been extended to investigate host-guest interactions in the crystalline porous materials [30,31]. After determining the initial positions of OSDAs, such parameters as atomic coordinates (framework atoms and guest species), unit cell dimensions, peak shape functions, background, etc.…”

Constrained Al sites in FER-type zeolites

“…As mentioned above, methanol preferentially interacts with the molecular sieve by hydrogen‐bond instead of simple physical adsorption, [24,25] and methanol molecules probably associate with each other to form protonated dimer or cluster complex of methanol at high concentration, owing to its limited number of BASs [27] . The BAS of the employed SAPO‐42 has been proven to be located in site O1 by Rietveld Refinement in our previous work, by the usage of specific organic structure‐directing agent (OSDA) [30,31] . Thus, the single BAS and sole confined space of lta provide exclusive adsorption site for methanol, and the increasing trend of the SAPO‐42 is predominantly attributed to the interactions between adsorbate molecules, such as H‐bonding interactions.…”

“…[27] The BAS of the employed SAPO-42 has been proven to be located in site O1 by Rietveld Refinement in our previous work, by the usage of specific organic structure-directing agent (OSDA). [30,31] Thus, the single BAS and sole confined space of lta provide exclusive adsorption site for methanol, and the increasing trend of the SAPO-42 is predominantly attributed to the interactions between adsorbate molecules, such as H-bonding interactions.…”

Revealing the Specific Spatial Confinement in 8‐membered Ring Cage‐type Molecular Sieves via Solid‐state NMR and Theoretical Calculations

“…[13][14][15][16][17] As the analogs of zeolites, SAPO molecular sieves have equally important industrial applications. [18][19][20][21][22][23] In particular, SAPO-34, as an excellent methanol-to-olefins (MTO) catalyst, has received extensive attention, 24,25 and its catalytic performance has been optimized through the seed-assisted synthesis. 16,[26][27][28][29] However, it seems that only nanosized SAPO-34 seeds 30,31 or ball-milled SAPO-34 seeds with low crystallinity 15,26,28,[32][33][34] are feasible.…”

Insights on the seed selection criteria of SAPO-34 synthesis: structural units and their chemical microenvironment