Zinc Polypyrrole-air Sea Water Battery
2016
Authors
Al-Eggiely, Ali H.Alguail, Alsadek A.
Gvozdenović, Milica
Jugović, Branimir
Grgur, Branimir
Article (Published version)
Metadata
Show full item recordAbstract
An environmentally friendly cell using polypyrrole-air regenerative cathode and zinc as anode, is investigated in the 3.5% sodium chloride solution for the possible applications as the sea water cell. It is shown that cell can deliver constant current in the range of tens of milliamps per gram of polypyrrole, and in the range of hundreds of milliamps under impulse discharge mod, with the cell voltage above 0.8 V, over significant period of time. It is suggested that cell could be considered, at least as a secondary power in a remote sensor buoy system for the monitoring shallow marine environments.
Keywords:
Conducting polymers / Air regenerative cathode / Buoy / Metal-air batterySource:
International Journal of Electrochemical Science, 2016, 11, 12, 10270-10277Publisher:
- Electrochemical Science Group, Beograd
Funding / projects:
- Electrochemical synthesis and characterization of nanostructured functional materials for application in new technologies (RS-MESTD-Basic Research (BR or ON)-172046)
- 1612019
DOI: 10.20964/2016.12.35
ISSN: 1452-3981
WoS: 000391039000040
Scopus: 2-s2.0-85009483633
Institution/Community
Tehnološko-metalurški fakultetTY - JOUR AU - Al-Eggiely, Ali H. AU - Alguail, Alsadek A. AU - Gvozdenović, Milica AU - Jugović, Branimir AU - Grgur, Branimir PY - 2016 UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/3427 AB - An environmentally friendly cell using polypyrrole-air regenerative cathode and zinc as anode, is investigated in the 3.5% sodium chloride solution for the possible applications as the sea water cell. It is shown that cell can deliver constant current in the range of tens of milliamps per gram of polypyrrole, and in the range of hundreds of milliamps under impulse discharge mod, with the cell voltage above 0.8 V, over significant period of time. It is suggested that cell could be considered, at least as a secondary power in a remote sensor buoy system for the monitoring shallow marine environments. PB - Electrochemical Science Group, Beograd T2 - International Journal of Electrochemical Science T1 - Zinc Polypyrrole-air Sea Water Battery EP - 10277 IS - 12 SP - 10270 VL - 11 DO - 10.20964/2016.12.35 ER -
@article{ author = "Al-Eggiely, Ali H. and Alguail, Alsadek A. and Gvozdenović, Milica and Jugović, Branimir and Grgur, Branimir", year = "2016", abstract = "An environmentally friendly cell using polypyrrole-air regenerative cathode and zinc as anode, is investigated in the 3.5% sodium chloride solution for the possible applications as the sea water cell. It is shown that cell can deliver constant current in the range of tens of milliamps per gram of polypyrrole, and in the range of hundreds of milliamps under impulse discharge mod, with the cell voltage above 0.8 V, over significant period of time. It is suggested that cell could be considered, at least as a secondary power in a remote sensor buoy system for the monitoring shallow marine environments.", publisher = "Electrochemical Science Group, Beograd", journal = "International Journal of Electrochemical Science", title = "Zinc Polypyrrole-air Sea Water Battery", pages = "10277-10270", number = "12", volume = "11", doi = "10.20964/2016.12.35" }
Al-Eggiely, A. H., Alguail, A. A., Gvozdenović, M., Jugović, B.,& Grgur, B.. (2016). Zinc Polypyrrole-air Sea Water Battery. in International Journal of Electrochemical Science Electrochemical Science Group, Beograd., 11(12), 10270-10277. https://doi.org/10.20964/2016.12.35
Al-Eggiely AH, Alguail AA, Gvozdenović M, Jugović B, Grgur B. Zinc Polypyrrole-air Sea Water Battery. in International Journal of Electrochemical Science. 2016;11(12):10270-10277. doi:10.20964/2016.12.35 .
Al-Eggiely, Ali H., Alguail, Alsadek A., Gvozdenović, Milica, Jugović, Branimir, Grgur, Branimir, "Zinc Polypyrrole-air Sea Water Battery" in International Journal of Electrochemical Science, 11, no. 12 (2016):10270-10277, https://doi.org/10.20964/2016.12.35 . .