Khabzina, YoldesYoldesKhabzinaDhainaut, JeremyJeremyDhainautAhlhelm, MatthiasMatthiasAhlhelmRichter, Hans-JürgenHans-JürgenRichterReinsch, HelgeHelgeReinschStock, NorbertNorbertStockFarrusseng, DavidDavidFarrusseng2022-03-052022-03-052018https://publica.fraunhofer.de/handle/publica/25380710.1021/acs.iecr.8b00808We report herein the upscaled synthesis and shaping of UiO66-COOH for NH3 air purification. The synthesis of the zirconium-based MOF was carried out in a batch reactor in an aqueous suspension with a yield of 89% and a space-time yield of 350 kg/day/m3. Neither toxic chemicals nor organic solvents were used, allowing this MOF to be employed in individual or collective air purification devices. Freeze-granulation and extrusion shaping techniques were investigated. The NH3 air purification performances of UiO66-COOH in bead, tablet and extrudate forms were compared to those of commercial carbon based materials (type K adsorbents from3M and Norit). Testing conditions were chosen to reflect current standards for ammonia concentration (600-1200 ppm) and velocity. In addition, the breakthrough measurements were carried out at three different relative humidity levels (0%, 40%, and 70%). Pellets and extrudates of UiO66-COOH outperformed commercial benchmark adsorbents in all conditions, especially in dry conditions, for which the commercial adsorbents suffered impaired ammonia uptake and shortened service life. Extrudates of UiO66-COOH also withstood attrition after intensive shaking.en660journal article