Electrochemical synthesis of conducting polyaniline blends and their use as sensors

Doğan, Sakip


Electrochemical synthesis of some conducting polymers and investigation of their conduction mechanism by ESR technique
Demirboğa, Banu; Önal, Ahmet M.; Department of Chemistry (1998)
Electrochemical properties of surface processed silicon micro particles for secondary lithium-ion battery anodes
Miser, Burcu; Aydınol, Mehmet Kadri (null; 2017-09-28)
Electrochemical investigation of copper-DTPI interactions
Hicyilmaz, C; Altun, Naci Emre (Springer Science and Business Media LLC, 2006-05-01)
The electrochemical behavior of copper in the absence and presence of a dithiophosphinate type collector, sodium diisobuthyldithiophosphinate (NaDTPI), was determined to investigate the interactions between a copper surface and NaDTPI as a function of pulp potential (Eh) and pH. The electrochemical studies were performed by Cyclic Voltammetry (CV) in the -355 to +1550 mV (SHE) potential range and at different pHs from slightly acidic to strongly alkaline conditions. The electrochemical studies were carried ...
Electrochemical polymerization and characterization of polyether-substituted aniline derivatives
Tirkeş, Süha; Oenal, Ahmet M. (Wiley, 2007-08-01)
New compounds consisting of aniline units linked by polyether bridges have been synthesized and their electrochemical polymerization was performed via constant potential electrolysis and cyclic voltammetry in an aqueous solution containing 3.0 moI L-1 H2SO4. Chemical polymerization was carried out using (NH4)(2)S2O8 as oxidizing agent. It was found that both methods gave the same polymer product without any cleavage of the polyether bridge between aniline rings. The polymers were characterized using the Fou...
Electrochemical Formation of Alloys of Aluminum in Molten Salts
Polat, Çağlar; Erdoğan, Metehan; Karakaya, İshak (2018-10-27)
Citation Formats
S. Doğan, “Electrochemical synthesis of conducting polyaniline blends and their use as sensors,” Middle East Technical University, 1991.