Title :
Lead-free galvanic oxygen sensors — A conceptual approach
Author :
Cobianu, Cornel ; Serban, Bogdan ; Avramescu, Viorel ; Hobbs, Bryan ; Pratt, Keith ; Willett, Melanie
Author_Institution :
Sensors & Wireless Lab. Bucharest, Honeywell Romania SRL, Bucharest, Romania
Abstract :
Within this paper we present a thermodynamic methodology for the selection of non-toxic metals which could be used as lead-free consumable anodes in electrochemical galvanic oxygen sensors. Starting from thermodynamic nobility theory, metals like copper, bismuth or antimony are proposed to replace lead in future galvanic O2 sensors. The thermodynamic theory provides voltage windows which increase from copper (0.7 V), to bismuth (0.857 V) and antimony (1.076 V). The experimental voltage windows are smaller than the theoretical ones, but these experimental values increase in the same order from Cu, to Bi and Sb, as predicted by our methodology.
Keywords :
antimony; bismuth; chemical sensors; copper; oxygen; thermodynamics; antimony; bismuth; electrochemical galvanic oxygen sensors; lead-free consumable anodes; lead-free galvanic oxygen sensors; nontoxic metal selection; thermodynamic methodology; thermodynamic nobility theory; voltage 0.7 V; voltage 0.857 V; voltage 1.076 V; voltage windows; Anodes; Bismuth; Lead; Sensors; Thermodynamics; antimony; bismuth; copper; lead-free O2 galvanic sensors; noble metal anodes;
Conference_Titel :
Semiconductor Conference (CAS), 2012 International
Conference_Location :
Sinaia
Print_ISBN :
978-1-4673-0737-6
DOI :
10.1109/SMICND.2012.6400667
