Titrating Controlled Defects into Si-LTA Zeolite Crystals Using Multiple Organic Structure-Directing Agents

Controlling defects in zeolites is crucial for tuning their adsorption and catalytic properties. We have performed an integrated zeolite synthesis, spectroscopy, and density functional theory study to test the limit of F- as a charge-balancing agent that mitigates defects in siliceous zeolites. We focused on the synthesis of siliceous zeolite LTA at 150 degrees C with 1,2-dimethyl-3-(4-methylbenzyl) imidazolium as the primary organic structure-directing agent (OSDA) and tetramethyl ammonium (TMA) as the secondary OSDA. By varying the amount of TMA in the synthesis gel, positive charges were titrated into the resulting as-made Si-LTA. Surprisingly, we found that greater TMA concentration does not induce more F- to enter into the zeolite. Si-29 solid-state MAS NMR, Raman spectroscopy, and density functional theory suggest that this system has surpassed its capacity for F- to balance OSDA charge, and additional positive charge is balanced by Si-O- framework defects. The number of defects in the as-made Si-LTA can be precisely titrated by the amount of TMA in the zeolite structures. For the Si-LTA synthesized without TMA, framework defects formed in the early stage of crystal growth were found to heal during later crystallization, leading to defect-free Si-LTA. However, for the Si-LTA synthesized with TMA, the defects formed in early stages do not heal. A DFT thermodynamic analysis explains that crowding of Si-LTA pores by TMA impedes defect healing; this prediction is corroborated by synthesis experiments at an elevated temperature (170 degrees C). These results indicate that F- can have a limited capacity to balance OSDA charge in zeolite synthesis, opening up a third route to zeolite synthesis intermediate between the fluoride and hydroxide routes.

Automated summary

Controlling defects in zeolites is crucial for tuning their adsorption and catalytic properties. This study explores the limit of F- as a charge-balancing agent in siliceous zeolites through an integrated approach of zeolite synthesis, spectroscopy, and density functional theory. The results show that F- has a limited capacity to balance OSDA charge in zeolite synthesis.