n this study, organic - inorganic nanocomposites with super-hydrophilic property are prepared by the sol-gel method, and applied on the preparation of optical coatings. The thesis is divided into two parts: (1) super-hydrophilic antifog/antifrost coatings and (2) super-hydropholic antifog/anti-reflection coatings. The major findings are abstracted below. antifog/antifrost coatings : Surfactants containing double bonds (T20) were successfully synthesized and added into the coating formulations directly to form coatings via UV-curing polymerization process. Through the double layer design hydrophilic anti-fog and anti-frost coatings were prepared which also possess the benefit of water-washable. The steam and frost test results show that as the coatings contain up to 70 wt% T20, they are antifogging and able to defrost and regain high transparent within 30~40s at room temperature (70%RH) after pre-cooled to -20 ℃ in the fridge. Also, the coatings have high hardness of 4H and adhere perfectly to the substrate (PMMA), demonstrating good potentials in optical coating applications. antifog/anti-reflection coatings: In this part, TiO2 were added to the formulation to prepared the high refractive index (RI) coating layer, which modified silica and modified Tween20 were added to coating formulation to prepare hydrophilic coating of low refractive index. Using double-layer design, the effect of spin coating rate on the thickness of the coating was investigated. Using bottom(high RI)/top(low RI) double layer design, antifog/anti-reflection coatings were prepared successfully. The effect of spinning rate on the thickness of the coating was investigated. Based on the computer-aided software, the thickness of the coating layers were optimized. The result shows that when the bottom and top layer coating thicknesses are 109 nm and 79 nm, respectively, the best antireflection performance, only 1.09% of the reflectance, is achieved. Steam test also indicates that this coating has very good anti-fog performance.