Sol-Gel Synthesis of Palladium-Doped Silica Nanocomposite Fiber Using Triton X-100 Micelle Template and the Application for Hydrogen Gas Sensing

Author

Guo, Haiquan ; Tao, Shiquan

Author_Institution

Inst. for Clean Energy Technol., Mississippi State Univ., Starkville, MS

Volume

7

Issue

3

fYear

2007

fDate

3/1/2007 12:00:00 AM

Firstpage

323

Lastpage

328

Abstract

Palladium-doped silica nanocomposites were synthesized via a sol-gel technique combined with a template of Triton X-100 micelle. The freshly prepared sol sample of Pd-doped silica nanocomposites was investigated by TEM. Determined from the TEM image, the sizes of the Pd nanoparticles are narrowly distributed, which are around 30 nm in diameter. The prepared sol solution of the sample was injected into a Tygon Microbore Autoanalysis tubing. After 14 days gelatinization, a transparent porous optical fiber was obtained. The response of the fiber to hydrogen gas was tested by using a fiber-optic spectrometric method. The palladium-doped silica nanocomposite fiber is sensitive upon exposure to hydrogen gas and the response is reversible. This palladium-doped silica nanocomposite fiber can be applied as a new kind of hydrogen gas sensor

Keywords

gas sensors; hydrogen; nanocomposites; nanoparticles; palladium; silicon compounds; sol-gel processing; transmission electron microscopy; SiO₂:Pd; TEM image; Tygon microbore auto-analysis tubing; fiber-optic sensor; fiber-optic spectrometry; hydrogen gas sensor; nanocomposite fiber; nanoparticles; sol-gel synthesis; triton X-100 micelle template; Biomembranes; Gas detectors; Hydrogen; Nanobioscience; Nanoparticles; Optical fiber sensors; Optical fiber testing; Optical fibers; Palladium; Silicon compounds; Fiber-optic sensor; hydrogen gas sensor; palladium-doped silica nanocomposites; sol-gel chemistry;

fLanguage

English

Journal_Title

Sensors Journal, IEEE

Publisher

ieee

ISSN

1530-437X

Type

jour

DOI

10.1109/JSEN.2006.890163

Filename

4079605