Sensors (Nov 2017)

Room-Temperature H2 Gas Sensing Characterization of Graphene-Doped Porous Silicon via a Facile Solution Dropping Method

  • Nu Si A. Eom,
  • Hong-Baek Cho,
  • Yoseb Song,
  • Woojin Lee,
  • Tohru Sekino,
  • Yong-Ho Choa

DOI
https://doi.org/10.3390/s17122750
Journal volume & issue
Vol. 17, no. 12
p. 2750

Abstract

Read online

In this study, a graphene-doped porous silicon (G-doped/p-Si) substrate for low ppm H2 gas detection by an inexpensive synthesis route was proposed as a potential noble graphene-based gas sensor material, and to understand the sensing mechanism. The G-doped/p-Si gas sensor was synthesized by a simple capillary force-assisted solution dropping method on p-Si substrates, whose porosity was generated through an electrochemical etching process. G-doped/p-Si was fabricated with various graphene concentrations and exploited as a H2 sensor that was operated at room temperature. The sensing mechanism of the sensor with/without graphene decoration on p-Si was proposed to elucidate the synergetic gas sensing effect that is generated from the interface between the graphene and p-type silicon.

Keywords