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Krisnandi, Y.K., Saragi, I.R., Sihombing, R., Ekananda, R., Sari, I.P., Griffith, B.E., et al. (2019) Synthesis and Characterization of Crystalline Nay-Zeolite from Belitung Kaolin as Catalyst for N-Hexadecane Cracking. Crystals, 9, Article 404.
https://doi.org/10.3390/cryst9080404

has been cited by the following article:

• TITLE: Additive-Free Synthesis of Hierarchical Zeolite Y Catalyst from Aloji Kaolin

  AUTHORS: Rakiya Abdullahi Usman, Emmanuel Olufemi Osaji, Monday Abutu Idakwo, Shade Ibiduni Ishola, Rasaq Olawale Medupin, Eniola Ebenezer Olowofusi, Umar A. Saleh

  KEYWORDS: Hierarchical Zeolites, Additive Free, Mesopores, Aloji Kaolin

  JOURNAL NAME: Advances in Chemical Engineering and Science, Vol.15 No.4, October 15, 2025

  ABSTRACT: Hierarchical zeolite has multilevel porosity to enable accurate and unhindered diffusion of reactant and product in the zeolite framework. It is an advanced material used to correct the constraint encountered in the conventional zeolite with a micropore system. The development of hierarchical zeolites involves using a mesopore-creating agent to create maximum porosity. This method usually deposits hazards to the environment and requires very high energy to remove them after their synthesis procedure. The additive-free synthesis of hierarchical zeolite is an advanced move to correct the synthesis of hierarchical zeolite Y. The report is on additive-free hierarchical zeolite Y from Aloji kaolin. The synthesized hierarchical zeolite Y has a surface area of 489.09 m2/g, a pore size of 5.76 nm and can be applied in chemical engineering processes.