Voltammetry of thermally prepared ruthenium oxide films and flux detection at the electrolyte interface

“…43 The technique has also been used to study the ion exchange ruthenium oxides. 44 2.2.2 Inorganic complex films. PBD techniques have also been utilized to study the redox coupled ion exchange in mixed salts (ferric ferrocyanide (Prussian blue)), 45 cupric ferrocyanide, 46 indium ferrocyanide 47 and lutetium diphthalocyanine.…”

Ion exchange at the electrode/electrolyte interface studied by probe beam deflection techniques

“…43 The technique has also been used to study the ion exchange ruthenium oxides. 44 2.2.2 Inorganic complex films. PBD techniques have also been utilized to study the redox coupled ion exchange in mixed salts (ferric ferrocyanide (Prussian blue)), 45 cupric ferrocyanide, 46 indium ferrocyanide 47 and lutetium diphthalocyanine.…”

Ion exchange at the electrode/electrolyte interface studied by probe beam deflection techniques

“…IrOx is used for applications in a wide range of fields, including pH-sensing [116], electrochromic devices and optical information storage, chlorine or oxygen evolution, neural stimulation [117], field emission cathodes, and advanced memory technology. More recently it is gaining renewed interest as electrode material for supercapacitors [118].…”

“…If only sputtered iridium oxide films (SIROFs) are considered, already the sputter parameters like substrate temperature, oxygen pressure and vacuum pressure are of great influence in the electrochemical behavior [119,125,126]. CV diagrams measured with SIROFs exhibit a typical 'featureless' or capacitor-like shape [118,119,127], compared to AIROFs [117,128,129].…”

Miniaturized electrochemical cells for applications in drug screening and protein cleavage

Application of Probe Beam Deflection Techniques to the Study of Surface-Confined Electrochemical Systems