Fabrication of highly sensitive ethanol sensor based on doped nanostructure materials using tiny chips

Mohammed M. Rahman; Abdullah Mohamed Asiri

doi:10.1039/c5ra08224b

Back

Fabrication of highly sensitive ethanol sensor based on doped nanostructure materials using tiny chips

Article 2015 en

Abstract

1 min read

Doped CuO–Fe2O3 nanocubes (NCs) are prepared <italic>via</italic> a facile wet-chemical process using active reactant precursors with reducing agents in high pH medium (pH > 10).

Discussion(0)

No comments yet. Be the first to comment.

Related publications

Article2014

Fabrication of Smart Chemical Sensors Based on Transition-Doped-Semiconductor Nanostructure Materials with µ-Chips

Mohammed M. Rahman, Sher Bahadar Khan, Abdullah Mohamed Asiri

Article2019

Removal of a melamine contaminant with Ag-doped ZnO nanocomposite materials

Mohammed M. Rahman, Hasan B. Balkhoyor, Abdullah Mohamed Asiri

Article2018

Selective hydrazine sensor fabrication with facile low-dimensional Fe2O3/CeO2nanocubes

Mohammed M. Rahman, M. M. Alam, Abdullah Mohamed Asiri

Article2018

Sensitive 3-chlorophenol sensor development based on facile Er2O3/CuO nanomaterials for environmental safety

Tahir Ali Sheikh, Mohammed M. Rahman, Abdullah Mohamed Asiri, Hadi M. Marwani

Article2013

Fabrication of Highly Sensitive Phenyl Hydrazine Chemical Sensor based on as-grown ZnO-Fe2O3 Microwires

Mohammed M. Rahman, G. Grüner, Mohammed Saad Al-Ghamdi, Muhammad A. Daous, Sher Bahadar Khan, Abdullah Mohamed Asiri

Fabrication of highly sensitive ethanol sensor based on doped nanostructure materials using tiny chips

Abstract

Discussion(0)

Related publications

Fabrication of Smart Chemical Sensors Based on Transition-Doped-Semiconductor Nanostructure Materials with µ-Chips

Removal of a melamine contaminant with Ag-doped ZnO nanocomposite materials

Selective hydrazine sensor fabrication with facile low-dimensional Fe<sub>2</sub>O<sub>3</sub>/CeO<sub>2</sub>nanocubes

Sensitive 3-chlorophenol sensor development based on facile Er<sub>2</sub>O<sub>3</sub>/CuO nanomaterials for environmental safety

Fabrication of Highly Sensitive Phenyl Hydrazine Chemical Sensor based on as-grown ZnO-Fe2O3 Microwires