@article{oai:nagoya.repo.nii.ac.jp:02001572, author = {Hagio, Takeshi and Park, Jae‐Hyeok and Lin, Yan and Tian, Yanqin and Hu, Yun Hang and Li, Xinling and Kamimoto, Yuki and Ichino, Ryoichi}, issue = {4}, journal = {Crystal Research and Technology}, month = {Apr}, note = {Conventionally, EAB-type zeolites are crystallized by hydrothermal synthesis for many days under agitational synthesis conditions such as rotation or stirring. In the present study, EAB-type zeolite is obtained by hydrothermal synthesis within 12 h under static synthesis conditions for the first time. The effects of crystallization temperature, aging of the precursor sol, and addition of seed crystals are investigated. The results reveal that EAB-type zeolite can be obtained when using a precursor sol with short aging time followed by hydrothermal synthesis in a very narrow temperature range 110 °C−120 °C under static synthesis condition. Addition of seed crystals is found to suppress the formation of SOD-type zeolite, the primary phase at high hydrothermal synthesis temperatures, while it does not increase the crystallization rate of EAB-type zeolite. Furthermore, the crystallization behavior at 120 °C is examined by varying the synthesis time. EAB-type zeolite with invariably twinned plate-like morphology starts to crystallize between synthesis time of 3 to 6 h at 120 °C under the static synthesis condition.}, title = {Facile Hydrothermal Synthesis of EAB‐Type Zeolite under Static Synthesis Conditions}, volume = {56}, year = {2021} }