Electrophoretic fabrication of ZnO/ZnO-CuO composite for ammonia gas sensing

Creator

Ryan Dula Corpuz, MSU-Iligan Institute of Technology
Jason Rayala Albia, University of the Philippines Los Banos

Issue Date

7-2014

Abstract

Nanostructured deposits of ammonia (NH3) sensitive Zno and Zno-CuO composites were fabricated on a graphite electrode via electrophoretic deposition (EPD). Deposition was done by holding the applied voltage and deposition time constant at room temperature. Testing of sensing properties of the deposits was conducted using Wheatstone bridge circuit. SEM micrographs show a more open structure and more exposed surface area of the pure Zno deposit compared to the Zno-CuO deposit. The average particle size deposited at 500V for Zno and Zno-CuO were 241nm and 260nm respectively; whereas at 750V the average particle size is 195nm and 276nm, respectively. Deposits with greater surface area, smaller particle sizes and thicker deposits exhibit high gas sensitivity. On the other hand, addition of CuO resulted to a more compact and dense surface structure and decreased gas sensitivity. Thus, particle size and the surface structure of the deposits dictate the sensitivity of the material.

Source or Periodical Title

Materials Research

ISSN

1516-1439

Volume

17

Issue

4

Page

851-856

Document Type

Article

Physical Description

illustrations, tables, graphs

Language

English

Subject

Ammonia, Copper oxide, Electrophoretic deposition, Gas sensitivity, Zinc oxide

Recommended Citation

Corpuz, R.D., Albia, J.R. (2014). Electrophoretic Fabrication of ZnO/ZnO-CuO Composite for Ammonia Gas Sensing. Materials Research, 17 (4), 851-856. doi:10.1590/S1516-14392014005000097.

Identifier

doi:10.1590/S1516-14392014005000097.

Digital Copy

yes