International Journal of Science, Engineering and TechnologyAuthors: Professor P.E.Pawar, Mr.Pavankumar Jadhav, Mr.Aditya Rasal, Mr.Harshal Dhadas, Mr.Parth Shinde, Mr.Ashitosh Pawar, Mr.Rudra Tonpe, Mr.Omkar sargar, Mr.Parth Patil, Mr.Rohit Didwagh
Abstract: Hydrothermal synthesis has emerged as a versatile and efficient method for preparing titanium dioxide (TiO₂) nanomaterials with tailored properties, including controlled morphology, crystallinity, and phase composition. This technique enables the formation of highly crystalline TiO₂ nanoparticles at relatively low temperatures and pressures, making it an attractive approach for scalable production. The synthesized TiO₂ exhibits remarkable photocatalytic activity, chemical stability, and non-toxicity, which make it suitable for various applications such as environmental remediation, self-cleaning surfaces, and energy conversion devices like dye-sensitized solar cells. Several studies highlight the influence of parameters such as temperature, time, and precursor concentration on the structural and functional properties of TiO₂. The potential to engineer specific anatase or rutile phases further enhances its performance in targeted applications. Overall, hydrothermal synthesis offers a green, cost-effective route to produce high-performance TiO₂ nanostructures, supporting its continued research and application in environmental and energy related technologies.
DOI: http://doi.org/
