ABSTRACT Diclofenac (DCF), a common nonsteroidal anti-inflammatory drug, is frequently detected in aquatic environments, causing serious threat to aquatic organisms and humans through bioaccumulation, persistence, and toxicity. Using eco-friendly clay-based adsorbents, samples of halloysite (H) processed at 600°C (H600-0N) and then HCl-leached with 3 N concentration (H600-3N) were prepared, characterised by Inductively Coupled Plasma (ICP), N2 adsorption – desorption, and infrared spectroscopy with Fourier transform (FTIR), and used in DCF adsorption. H600-3N exhibited a substantial surface area increase from 63 m2 g−1 for H to 434 m2 g−1 due to an elevated SiO₂/Al₂O₃ ratio of 23.83 against 1.72 for H. In this context, H600-3N and H adsorbed 165 mg g−1 and 37.9 mg g−1 of DCF, respectively. The isotherms of H600-xN(x = 0 or 3) were adequately adjusted to the Langmuir-Freundlich model, while the kinetic data were suitably described by the pseudo-second order equation. Through cross-checking the results of characterisation, DCF adsorption and the FTIR investigation between DCF and H600-3N, a mechanism has been suggested that includes two main components: hydrogen bonding between the silanol’s hydrogen atom and the negatively charged carboxylate anion and hydrophobic interactions between the – Si – O – Si – entities and the DCF aromatic rings. The elucidation of intermolecular interactions between organic contaminants and 1:1 clay minerals is essential to develop the application of these abundant and low-cost materials in wastewater treatment.