Mahmoud Gamal lbrahiem Hassanen <br/><br/>
Phcatalytic activity of Ag/ Agel nanocomposites and  their role in decomposition of azo dyes /  
 فاعلية التحفيز الضوئي لمتراكبات الفضه/كلوريذ الفضه النانويه ودورها في تكسير صبغات الازو 
Mahmoud Gamal lbrahiem Hassanen ; Supervised Souad Ahmed Elfeky , Yasser Attia Attia 
 - Cairo :   Mahmoud Gamal lbrahiem Hassanen ,   2016 
 - 116 P. :   charts , facsimiles ;   25cm 
<br/><br/>Thesis (M.Sc.) - Cairo University - National Institute of Laser Enhance Science - Department of Laser Applications Environmental Metrology photochemistry Photobiology Agriculture 
<br/><br/> Silver clusters anchored AgCI nanocubes have been facile synthesized in order to study their catalytic activity towards degradation of organic pollutants in water. The as-prepared samples were characterized by scanning electron mIcroscopy (SEM) and X-Ray diffraction (XRD). The azo dye (acid red 33) was chosen as a model for organic pollutants and its photodegradation under visible light using the prepared AgCI and Ag/ AgCI nanocatalysts has been followed by UV -Vis absorption spectroscopy. Ag/AgCI nanocubes show high catalytic performance towards acid red 33 dye than AgCI nanoparticles in the visible region of light. A possible photocatalytic mechanism has been proposed depending on the presence of small silver clusters that formed on the surface of silver chloride nanoparticles and concentrated at the comers. The presence of silver clusters on the surface of AgCI nanoparticles enhanced the photocatalytic degradation rate (99.6%) due to their band gaps (3.44 eV and 2.38 e V) in comparison to AgCI nanoparticles (90%) that have band gap at 2.755 eV. The catalytic activity has been studied at different pH values and the highest degradation rate (99.6%) was found at pH 6.8 (neutral) compared to (96%) at pH 8.9 (basic) and (80%) at pH 3 (acid). 
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<br/><br/><label>Subjects--Index Terms: </label>Ag/ Agel nanocomposites  Decomposition of azo dyes ٌRole in decomposition of azo dyes