Preparation and Characterization of Titanium Dioxide Nano-particles by Novel Sol-Gel Method

Jump To References Section

Authors

  • Department of Physics, Navarasam Arts & Science College for Women, Arachalur, Erode-638101 ,IN
  • Department of Electronics-UG, Sri Vasavi College, Erode-638316 ,IN
  • Department of Physics, Sri Sarada College for Women, Salem ,IN

DOI:

https://doi.org/10.15613/sijrs/2014/v1i2/67541

Keywords:

Band Gap, FTIR, Grain Size, SEM, Sol-Gel, Titanium Dioxide (TiO2), UV, XRD.

Abstract

Titanium dioxide (TiO2) finds large area of applications ranging from CMOS to photo catalyst. Titanium dioxide is an important Bio and semiconductor material applied in advanced fields like biomedical engineering, DSSC, gas sensing, [8] cosmetics etc. such biomaterial is synthesized by novel sol-gel method [1], [2]. It has excellent optical transmission as because it is a high bandgap semiconductor, which is transparent to visible light. The Sol-Gel technique is the most attractive technique due to its many advantages such as easy preparation method, less complicating instruments and less time consuming. Here, the Sol-Gel technique was successfully used for synthesising pure TiO2 nano-particles followed by characterization process. TiO2 nano-particles were synthesised using sol-gel technique followed by annealing [10]. These synthesised nano-particles were characterized by various methods such as X-ray Diffraction (XRD), Fourier Transmission Infrared spectroscopy (FTIR), Ultra-Violet visible spectroscopy (UV) and Scanning Electron Microscope (SEM). XRD can be used to show the presence of anatase TiO2 nano-particles. FTIR can be used to calculate the transmission range of TiO2 nano-particles. The UV spectroscopy can be used to lookout the shifting of absorption edges of TiO2 towards visible light region. The SEM range reveals the structure of nano-particles. The mechanism of synthesising TiO2 nano-particles using sol-gel technique is discussed in this paper.

Downloads

Published

2014-12-01

 

References

Li W., Kang J., Li X., Fang S., Lin Y., Wang G., Xiao X., “A novel polymer quaternary ammonium iodide and application in quasi-solid-state dye-sensitized solar cellsâ€, J. Photochem. Photobiol. Chem., vol. 170, p. 1–6, 2005.

Patil U.M., Gurav K.V., Joo O-S., Lokhande C.D., “Synthesis of photosensitive nanograined TiO2 thin films by SILAR methodâ€, J. Alloy. Comp., vol. 478. p. 711–715, 2009.

Mane R.S., Hwang Y., Lokhande C.D., Sartale S.D., Han S-H., “Room temperature synthesis of compact TiO2 thin films for 3-D solar cells by chemical arrested routeâ€, Applied Surface Science, vol. 246(1), p. 271–278, 2005.

Mosaddeq-ur-Rahman Md., Krishna K.M., Miki T., Soga T., Igarashi K., Tanemura S., Umeno M., “Investigation of solid state Pb doped TiO2 solar cellâ€, Sol. Energ. Mater. Sol. Cell., vol. 48. p. 123–130, 1997.

O’Regan B., Gratzel M., “A low-cost, high-efficiency solar cell based on dye-sensitized colloidal TiO2 filmsâ€, Nature, vol. 353. p. 737–740, 1991.

Roberson L.B., Poggi M.A., Kowalik J., Smested G.P., Bottomley L. A., Tolbert L. M., “Correlation of morphology and device performance in inorganic–organic TiO2 polythiophene hybrid solid-state solar cellsâ€, Coordination Chemistry Reviews, vol. 248(13), p. 1491–1499, 2004.

Liu Z., Pan K., Liu M., Zhang Q., Li J., Liu Y., Lü Q., Li J., Wang D., Bai Y., Li T., “Influence of the binder on the electron transport in the dye-sensitized TiO2 electrodeâ€. Thin Solid Films, vol. 484. p. 346–351, 2005.

More A.M., Kunjkar J.I., Lokhande C.D., “Liquefied petroleum gas (LPG) sensor properties of interconnected web-like structured sprayed TiO2 filmsâ€, Sensor Actuator B. Chem., vol. 129. p. 671–677, 2008.

Cao Y., Yang W., Chen Y., Du H., Yue P., “Effect of chemisorbed surface species on the photocatalytic activity of TiO2 nanoparticulate filmsâ€, Appl. Surf. Sci., vol. 236. p. 223– 230, 2004.

Gokilamani N., Muthukumarasamy N., Thambidurai M., “Synthesis and characterization of nanocrystalline TiO2 thin films by solgel dip coating methodâ€, Advanced Materials Research, vol. 678. p. 108–112. 2013 Apr.