Abdelaziz T.D.Ezz-Eldin F.M.October University for Modern Sciences and Arts (MSA University)Faculty of BiotechnologyBasic Sciences Department6th October CityEgypt; National Center for Radiation Research and TechnologyAtomic Energy AuthorityCairoEgypt; Chemistry DepartmentFoundation Academy for Sciences and Technology (FAST)Batterjee Medical College (BMC)JeddahSaudi Arabia2020-01-092020-01-0920179731458https://doi.org/10.1007/s12648-017-0998-yPubMedIDhttps://t.ly/P55m7ScopusThis work reports the synthesis and characterization of silica glass prepared by sol�gel procedure and finds out the effects of doses of gamma irradiation on the steps route of the heat-treated sample at 600 and 1100��C. Combined characterizations of the glassy samples have been carried out by optical absorption and electron paramagnetic resonance. Also, FT infrared absorption spectra have been measured for both the heat-treated samples before and after gamma irradiation. Optical absorption spectra have identified an absorption band at 212�215�nm beside a broad band at 230�265�nm and the correlation of E? center with heat-treatment and gamma irradiation have been followed. FT infrared absorption spectra indicate the bands within near IR region representing the vibrational modes due to water, OH and SiOH within the wavenumber range 2500�3700�cm?1 are affected by heat treatment due to the elimination of organic residue and amount of OH and water. ESR investigations confirm the results obtained from optical and FTIR measurements. It is concluded from the collective data that sol�gel silica glass can serve as acceptable candidate for gamma-rays irradiator and gamma chamber dosimetry. � 2017, Indian Association for the Cultivation of Science.EnglishEPRFTIROptical absorptionRadiation-detectorSol gel silica glasses?-IrradiationArticlehttps://doi.org/10.1007/s12648-017-0998-yPubMedID