This study aims to show the profile of research trends related to zeolite adsorbent material as a filtration medium in waste treatment. The research method used is a literature study with bibliometric analysis. The articles used are 2018-2023 with a total of 287 articles. Keywords used in PoP software are sewage treatment, adsorbent, and zeolite. Article data was analyzed and obtained using Publish or Perish (PoP) software on the Google Scholar database. The results of the following publication trends are represented in the form of graphical visualizations, which are analyzed using VOSviewer software. The focus of this study is the research trend on the effectiveness of using zeolite adsorbent material as a filtration medium in waste treatment. The implications of this study are (1) This finding will provide an empirical basis for the development of the use of zeolite as an adsorbent material; (2) Traceability of data on trends and updates from research on the use of zeolite as an adsorbent material.

Adsorben; Bibliometric analysis; Filtration; Waste treatment; Zeolite

Al-Jubouri, S. M., Al-Batty, S. I., Senthilnathan, S., Sihanonth, N., Sanglura, L., Shan, H., and Holmes, S. M. (2021). Utilizing Faujasite-type zeolites prepared from waste aluminum foil for competitive ion-exchange to remove heavy metals from simulated wastewater. Desalination and Water Treatment, 231, 166-181.

Budihardjo, M. A., Safitri, R. P., Ramadan, B. S., Effendi, A. J., Hidayat, S., Paramitadevi, Y. V., Ratnawati, B., and Karmilia, A. (2021). A bibliometric analysis of permeable reactive barrier enhanced electrokinetic treatment for sustainable polluted soil remediation. IOP Conference Series: Earth and Environmental Science, 894(1), 1-8.

Chang, W. S., Hong, S. W., and Park, J. (2002). Effect of zeolite media for the treatment of textile wastewater in a biological aerated filter. Process Biochemistry, 37(7), 693-698.

Elboughdiri, N. (2020). The use of natural zeolite to remove heavy metals Cu (II), Pb (II) and Cd (II), from industrial wastewater. Cogent Engineering, 7(1), 1782623.

Hardyanti, N., Susanto, H., Kusuma, F. A., and Budihardjo, M. A. (2023). A Bibliometric Review of Adsorption Treatment with an Adsorbent for Wastewater. Polish Journal of Environmental Studies, 32(2), 981-989.

Morante-Carballo, F., Montalván-Burbano, N., Carrión-Mero, P., and spinoza-Santos, N. (2021). Cation exchange of natural zeolites: Worldwide research. Sustainability (Switzerland), 13(14), 7751.

Sulistyanti, D., Antoniker, A., and Nasrokhah, N. (2018). Penerapan metode filtrasi dan adsorpsi pada pengolahan limbah laboratorium. EduChemia (Jurnal Kimia Dan Pendidikan), 3(2), 147.

Sumarli, S., Yulianti, I., Masturi, M., and Munawaroh, R. (2016). Pengaruh variasi massa zeolit pada pengolahan air limbah pabrik pakan ternak melalui media filtrasi. In Prosiding Seminar Nasional Fisika (E-Journal), 5, 43-46.

Visa, M. (2016). Synthesis and characterization of new zeolite materials obtained from fly ash for heavy metals removal in advanced wastewater treatment. Powder Technology, 294, 338-347.

Wang, C. C., and Ho, Y. S. (2016). Research trend of metal-organic frameworks: A bibliometric analysis. Scientometrics, 109(1), 481–513.