Cathode, definition

Anode (-) Pt(s) x HCl(aq) x Pt(s) (+) Cathode definitely does and suggests the following half-reactions ... 

Equations 11.19-11.21 are defined for a potentiometric electrochemical cell in which the pH electrode is the cathode. In this case an increase in pH decreases the cell potential. Many pH meters are designed with the pH electrode as the anode so that an increase in pH increases the cell potential. The operational definition of pH then becomes... 

The cell is the basis of all electrolysis. The anode admits current into the electrolyte and the cathode serves as a means of exit for the electrical current. The electrical flow provides a definition for electrolysis the flow of current from the anode through the electrolyte and out of the cell through the cathode with ensuing decomposition of the electrolyte, with products being formed at the electrodes. 

Other oxides of phosphorus are less well characterized though the suboxide PO and the peroxide P2O6 seem to be definite compounds. PO was obtained as a brown cathodic deposit when a saturated solution of Et3NHCl in anhydrous POCI3 was electrolysed between Pt electrodes at 0°. Alternatively it can be made by the slow reaction of POBrs with Mg in Et20 under reflux ... 

By definition, electrode II at which oxidation is the predominant reaction is the anode, whereas electrode I at which reduction is the predominant reaction is the cathode. It is apparent that the removal of electrons from Ag will result in the potential of its interface becoming more positive, whilst the concomitant supply of electrons to the interface of Ag, will make its potential become more negative than the equilibrium potential ... 

These terms are derived from various sources, principally from the List of Definitions of Essential Telecommunications Terms (Part I, Corrosion), International Telecommunications Union, Geneva, 1957, 1st Supplement, I960, and the B.S.I. Code of Practice for Cathodic Protection, CP102I 1973 terms taken from the Code of Practice are marked with an asterisk. 

Electrocatalysis Again by definition, an electrocatalyst is a solid, in fact an electrode, which can accelerate a process involving a net charge transfer, such as e.g. the anodic oxidation of H2 or the cathodic reduction of 02 in solid electrolyte cells utilizing YSZ ... 

Diffusion in Binary Electrolytes at Nonzero Currents Consider a reaction in which one of the ions of the binary solution is involved. For the sake of definition, we shall assume that its cation is reduced to metal at the cathode. The cation concentration at the surface will decrease when current flows. Because of the electroneutrality condition, the concentration of anions should also decrease under these conditions (i.e., the total electrolyte concentration c. should decrease). 

It is well to remember that in the past, the unit of electrical current—the international ampere—was defined as the strength of an invariant current which, when sent throngh a silver nitrate solution, would deposit l.lllSOOmg silver at the cathode. Today, another definition of the ampere as an SI unit is valid. 

A definite decomposition voltage occurs for the following reason. As soon as there is a potential difference between the electrodes, H+ ions move to the cathode and Cl ions to the anode. The ions are discharged, forming layers of adsorbed gas on the inert metal surfaces. This essentially amounts to having a hydrogen electrode and a chlorine electrode in place of the two platinum electrodes. The outcome is a typical chemical cell ... 

Several descriptions of electrode reaction rates discussed on the preceding pages and the difficulty to standardize electrode potential scales with respect to different temperatures imply several definitions of activation energies of electrode reactions. The easiest way to determine this quantity, for example, for an irreversible cathodic process, employs Eqs (5.2.9), (5.2.10) and (5.2.12) at a constant electrode potential,... 

Underpotential deposition of heavy metals on H2 evolving electrodes is a well known problem [133], The existence of a direct correlation between H2 evolution activity and metal work function, makes UPD very likely on high work function electrodes like Pt or Ni. Cathode poisoning for H2 evolution is aggravated by UPD for two reasons. First, deposition potentials of UPD metals are shifted to more anodic values (by definition), and second, UPD favors a monolayer by monolayer growth causing a complete coverage of the cathode [100]. Thus H2 evolution may be poisoned by one monolayer of cadmium for example, the reversible bulk deposition potential of which is cathodic to the H2 evolution potential. 

The effect is most prominent in free convection. Limiting-current curves recorded by Hickman (H3) at a horizontal cathode facing upward in free convection are shown in Fig. 6. The apparent limiting-current value is definitely dependent on the time necessary to reach the limiting current an 80% increase in this value is noted as the rate at which the current rises varies from 0.25 to 20 mA cm-2 min -. ... 

The mentioned method for synthesis of oxide-hydroxide compounds (Ni, Cr, Co) is more controllable and enables with production of electrode films definite amounts of components. Therefore it guarantees the reproducibility of their compositions and properties. Using the above method we were able to produce the following oxide compounds zero valence metal and lowest oxidation state oxide-hydroxide compounds in cathode process and oxide-hydroxide compounds (in anode process the oxide compounds consist of highest oxidation state oxide-hydroxide compounds). Both type compounds possesses electronic and ionic conductivity. 

An electrochemical cell is defined as two or more half-cells in contact with a common electrolyte . We see from this definition how a cell forms within the mouth, with aluminium as the more positive pole (the anode) and the fillings acting as the more negative pole (the cathode). Saliva completes this cell as an electrolyte. All the electrochemical processes occurring are contained within the boundaries of the cell. 

For this reason, it is not wise to speak of terms such as anode of cathode for a cell at equilibrium, because these terms relate to electrodes that give or receive charge during current flow and our definition of equilibrium implies that no current does flows. We therefore adopt the convention the terms anode or cathode will no longer be employed in our treatment of equilibrium electrochemistry. 

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