Abstract
In this work, pure and silver (Ag)-loaded TiO2 nanocrystals (NCs) with various concentrations of Ag were prepared by soft chemical route and the effect of Ag nanoparticles (NPs) on the functional properties of TiO2 was studied. X-ray diffraction (XRD) and Raman studies confirmed that the synthesized product had single-phase nature and high crystalline quality. The crystallite size was decreased from 18.3 nm to 13.9 nm with the increasing in concentration of Ag in TiO2 NCs. FESEM micrographs showed that the pure and AgNPs-loaded TiO2 have spherical morphology and uniform size distribution with the size ranging from 20 to 10 nm. Raman spectroscopy performed on pure and AgNPs-loaded TiO2 confirms the presence of anatase phase and AgNPs. Optical properties show the characteristics peaks of TiO2 and the shifting of the peaks position was observed by changing the concentration of Ag. The tuning of bandgap was found to be observed with the increase in Ag, which could be ascribed to the synergistic effect between silver and TiO2 NCs. Density functional theory calculations are carried out for different Ag series of doped TiO2 lattices to simulate the structural and electronic properties. The analysis of the electronic structures show that Ag loading induces new localized gap states around the Fermi level. Moreover, the introduction of dopant states in the gap region owing to Ag doping can be convenient to shift the absorption edge of pristine TiO2 through visible light.
Highlights
Semiconductor-based photocatalysts have attracted great attention owing to their potential applications in photocatalysts, water splitting for hydrogen production, and renewable energy by converting sunlight to electricity or fuels [1,2]
It can be observed that the shape of the peaks appears clear and sharp, and no impurity peaks are present in these patterns which indicates pure form of TiO2
Some of the peaks marked by (*) belong to the crystal planes of silver (JCPDS card no. 04-0783). The intensities of these peaks increase with the rising concentration of Ag in TiO2, except the 10% concentration of silver where the intensity is higher than 19%, this difference could be due to the slower agglomeration rate of silver nanoparticles and with the excess of silver cations
Summary
Semiconductor-based photocatalysts have attracted great attention owing to their potential applications in photocatalysts, water splitting for hydrogen production, and renewable energy by converting sunlight to electricity or fuels [1,2] Among these materials, TiO2 is considered to be one such promising metal oxide because it possesses excellent physical and chemical properties, such as high oxidative power, long-term stability, and low cost [3,4,5]. We report the chemical synthesis of AgNPs-loaded TiO2 and study the effect of Ag nanoparticles on the structural, optical, and electronic structure properties of. The theoretical studies were conducted to investigate the structural, electronic, and optical properties using the first-principles calculation method This leads to a determination of the band gap change and allows for an investigation of the structure/property relations in this AgNPs-loaded TiO2
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
