TY - JOUR ID - scholars17479 N2 - Bisphenol A (BPA) is a derivative of phenol that has been identified as a pollutant in water. This work aimed to evaluate the experimental and molecular docking findings on the adsorption of BPA using porous material metalâ??organic frameworks (MOFs) of zeolitic imidazolate frameworks (ZIFâ??8 (Zn)). The commercial ZIFâ??8 (Zn) was characterized by field emission scanning electron microscopy (FESEM), scanning electron microscopy (SEM), and energy dispersive Xâ??ray (EDX). The surface morphology of ZIFâ??8 (Zn) showed cubic particles and zinc components (18.70 ) detected by EDX. The adsorption of endocrineâ?? disruptive chemicals of BPA was performed by batch adsorption experiments and measured using ultravioletâ??visible (UVâ??Vis) spectrophotometry. ZIFâ??8 (Zn) was shown to achieve adsorption at BPA dosage (0.4 g), and pH 6 (25oC) with high BPA removal (98.84). Molecular docking simulation represented that BPA was bound to ZIFâ??8 (Zn) via the inner pores. The mechanism interaction of BPA and ZIFâ??8 (Zn) was via van der Waals interaction. The adsorption of BPA onto ZIFâ??8 (Zn) fitted the Langmuir isotherm and the pseudoâ??secondâ??order model. The possible regeneration and reusability of ZIFâ??8 (Zn) show good suitability for reusable adsorbent in BPA adsorption application from environmental water. © 2022, Malaysian Society of Analytical Sciences. All rights reserved. IS - 5 Y1 - 2022/// VL - 26 A1 - Mahmad, A. A1 - Noh, T.U. A1 - Shaharun, M.S. A1 - Zango, Z.U. JF - Malaysian Journal of Analytical Sciences UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85140843013&partnerID=40&md5=3af2c86d366b4dfe562e6fd239fcf70f AV - none TI - ADSORPTION AND MOLECULAR DOCKING STUDY OF BISPHENOL A USING REUSABLE ZIFâ??8 (ZN) METALâ??ORGANIC FRAMEWORKS IN AN AQUEOUS SOLUTION Penjerapan dan Kajian Penambatan Molekul Bisfenol A Menggunakan Kerangka Logamâ?? Organik ZIFâ??8 (Zn) yang boleh Digunakan Semula dalam Larutan Air SP - 965 N1 - cited By 1 PB - Malaysian Society of Analytical Sciences SN - 13942506 EP - 975 ER -