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Related to Ionic solution: electrolytic solution


(ĭlĕk`trəlīt'), electrical conductor in which current is carried by ionsion,
atom or group of atoms having a net electric charge. Positive and Negative Electric Charges

A neutral atom or group of atoms becomes an ion by gaining or losing one or more electrons or protons.
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 rather than by free electrons (as in a metal). Electrolytes include water solutions of acids, bases, or salts; certain pure liquids; and molten salts. Gases may act as electrolytes under conditions of high temperature or low pressure. All inorganic acids, bases, and salts are electrolytes. Electrolytic substances are classified as strong or weak according to how readily they dissociate into conducting ions. Potassium chloride and sodium hydroxide are strong electrolytes; they are almost completely dissociated when in solution or fused. Acetic acid is a weak electrolyte. An electrolyte is decomposed when a current passes through it (see electrolysiselectrolysis
, passage of an electric current through a conducting solution or molten salt that is decomposed in the process. The Electrolytic Process

The electrolytic process requires that an electrolyte, an ionized solution or molten metallic salt, complete an
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a liquid or solid compound or system in which some noticeable concentration of ions that provide for the passage of electric current is present. In the narrow sense, electrolytes are substances whose solutions conduct electric current by means of ions, formed as a result of electrolytic dissociation.

A distinction is made between strong and weak electrolytes in solution. Strong electrolytes virtually completely dissociate into ions in dilute solutions. They include many inorganic salts and several inorganic acids and bases in aqueous solutions and in solvents possessing high dissociating capacity, such as alcohols and amides. The molecules of weak electrolytes in solution are only partially dissociated into ions, which are in dynamic equilibrium with the undissociated molecules. Weak electrolytes include most organic acids and many organic bases in aqueous and nonaqueous solvents. The division of electrolytes into strong and weak electrolytes is somewhat arbitrary, since it reflects not the properties of the electrolytes themselves but their state in solution, which depends on the concentration, on the nature of the solvent, on temperature, and on pressure.

On the basis of the number of ions into which one electrolyte molecule dissociates in solution, a distinction is made between binary electrolytes (written 1–1 electrolytes; for example, KCl), unibivalent electrolytes (written 1–2 electrolytes; for example, CaCl2), and so forth. Electrolytes of types 1–1, 2–2, and 3–3 are called symmetrical electrolytes, while electrolytes of types 1–2 and 1–3 are called nonsymmetrical electrolytes.

The properties of dilute solutions of weak electrolytes are described satisfactorily by the classical theory of electrolytic dissociation. The theory is inapplicable for insufficiently dilute solutions of weak electrolytes and for solutions of strong electrolytes, since these are complex systems consisting of ions, undissociated molecules or ion pairs, and larger aggregates. The properties of such solutions are determined by the nature of the ion-ion and ion-solvent interactions and by changes in the properties and structure of the solvent caused by the dissolved particles. The modern statistical theories of strong electrolytes adequately describe the properties of only very dilute solutions (<0.1 mole/liter).

Electrolytes are extremely important in science and technology. All liquid systems in living organisms contain electrolytes. Polyelectrolytes constitute an important class of electrolytes (seePOLYELECTROLYTE). Electrolytes are a medium for carrying out many chemical syntheses and electrochemical production processes. Nonaqueous electrolyte solutions are playing an ever increasing role in these applications. The study of the properties of electrolyte solutions is important in the design of new chemical sources of electric current and the improvement of technological processes for the separation of compounds by extraction from solution and ion exchange.


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(physical chemistry)
A chemical compound which when molten or dissolved in certain solvents, usually water, will conduct an electric current.


1. a solution or molten substance that conducts electricity
a. a chemical compound that dissociates in solution into ions
b. any of the ions themselves


A liquid, gelatinous or solid material that contains ions. In a battery, the electrolyte is the material that allows electricity to flow from one plate to another (between positive and negative electrodes). See battery, lithium polymer and batteries.
References in periodicals archive ?
Malik and his fellows investigated the length values of the water treeing formed in XLPE insulated cables in the NaCl, Cu[SO.sub.4], ve Cu[([NO.sub.3]).sub.2] aqueous ionic solutions under different temperatures in the study they conducted in 2006 [18].
aureus (ATCC 25922) (ATCC 29213) Soybeans extract -- (a) -- (a) Ionic solution of Cu 20 [+ or -] 0 20 [+ or -] 0 Copper-amino acids 10 [+ or -] 0 10 [+ or -] 0 chelate Copper 40 [+ or -] 0 40 [+ or -] 0 nanoparticles EDTA-copper 20 [+ or -] 0 20 [+ or -] 0 chelate EDTA solution 40 [+ or -] 0 40 [+ or -] 0 MIC copper (mM) Sample Bacterial strains E.
But the cation might prefer to be totally surrounded by water molecules, due to the entropic effects, if the concentration of the ionic solution is low enough.
Model has sensitivity for ionic solution in there expressions as far so we hope the present model is more improved model than discussed model earlier in the region.
Such ionic solution induces surface charge on the capillary wall.
The tenth edition adds sections on simple oxidation-reduction titrations, polyprotic acid titrations, and entropy changes in aqueous ionic solutions. (Ringgold, Inc., Portland, OR)
Its rechargeable SmartCap microcapsules contain ionic solutions of fluoride, calcium and phosphate that diffuse in and out of the sealant.
Around 15 staff at MC Ionic Solutions UK in Billingham have entered into a formal consultation with management about their future.
The coagulation-flocculation studies using Ti[O.sub.2] suspensions in low strength and intermediate strength ionic solutions, with and without the addition of aluminum sulfate, were carried out in different values of pH.