The　TiO2-supported　clinoptilolite　(TiO2/CP)　was　synthesized　via　in-situ　hydrothermal　crystallization　of　CP　in　TiO2　dispersion　medium　to　prepare　an　integrated　photocatalytic　adsorbent　(IPCA).　The　micro-structural　features　and　textural　parameters　of　obtained　TiO2/CP　were　characterized　via　X-ray　diffraction,　scanning　electron　microscope,　high　resolution　transmission　electron　microscope,　Fourier　transform　infrared　spectroscopy,　inductively　coupled　plasma-optical　emission　spectrometry,　BET-isotherm,　UV-vis　spectrophotometer　and　Malvern　zetasizer.　The　results　showed　a　well　dispersion　and　immobilization　of　anatase　TiO2　particles　on　the　surface　of　leaf-like　CP,　and　low　pH　value　of　point　of　zero　charge　(pH(pzc))　i.e.　2.20　(SCA3)　revealed　a　highly　negatively　charged　surface.　The　synthesized　TiO2/CP　were　used　as　IPCAs　for　removal　of　crystal　violet　(CV)　dye,　showing　a　higher　rate　of　adsorption　(46　%　removal　in　10　min)　followed　by　a　relatively　low　rate　of　photocatalytic　degradation　(49　%　degradation　in　120　min).　TiO2/CP　(SCA3)　significantly　improved　the　removal　efficiency:　95　%　of　CV　dye　was　removed　within　150　min　during　both　adsorption　and　degradation　using　0.2　g/L　dose　at　pH　6,　whereas　only　59　and　31　%　of　the　dye　was　removed　by　CP　and　TiO2　alone　respectively.　Adsorption　and　degradation　kinetics　of　CV　dye　were　found　to　follow　pseudo　second　and　pseudo　first　order　models,　respectively,　and　the　equilibrium　adsorption　results　fitted　Dubinin-Radushkevich　model.　The　thermodynamic　parameters　(Delta　G(ads),　Delta　H-ads,　and　Delta　S-ads)　of　adsorption　process　exhibited　that　adsorption　is　physical,　spontaneous,　exothermic　and　leads　to　higher　entropy.