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In , the hydron, informally called proton, is the form of atomic , represented with the symbol . The general term "hydron", endorsed by , encompasses cations of hydrogen regardless of isotope: thus it refers collectively to protons (H) for the protium isotope, (H or D) for the isotope, and tritons (H or T) for the isotope.

Unlike most other ions, the hydron consists only of a bare . The negatively charged counterpart of the hydron is the anion, .

Properties
Solute properties
Other things being equal, compounds that readily donate hydrons (Brønsted acids, see below) are generally polar, solutes and are often soluble in solvents with high relative static permittivity (dielectric constants). Examples include organic acids like (CHCOOH) or methanesulfonic acid (CHSOH). However, large nonpolar portions of the molecule may attenuate these properties. Thus, as a result of its alkyl chain, (CHCOOH) is considerably less hydrophilic compared to acetic acid.

The unsolvated hydron (a completely free or "naked" hydrogen atomic nucleus) does not exist in the condensed (liquid or solid) phase. As the surface strength is inverse to the radius, a tiny nucleus interacts thousands times stronger with nearby electrons than any partly atom.

Although are sometimes said to owe their extraordinary hydron-donating power to the presence of "free hydrons", such a statement is misleading: even for a source of "free hydrons" like , one of the superacidic cations present in the superacid fluoroantimonic acid (HF:SbF), detachment of a free still comes at an enormous energetic penalty on the order of several hundred kcal/mol. This effectively rules out the possibility of the free hydron being present in solution. For this reason, in liquid strong acids, hydrons are believed to by sequential transfer from one molecule to the next along a network of through what is known as the Grotthuss mechanism.[1] Computer modeling of proton-hopping in superacids.

Acidity
The hydron ion can incorporate an electron pair from a Lewis base into the molecule by adduction:
+ :L →
Because of this capture of the Lewis base (L), the hydron ion has Lewis acidic character. In terms of , the bare hydron is an infinitely hard Lewis acid.

The hydron plays a central role in Brønsted–Lowry acid–base theory: a species that behaves as a hydron donor in a reaction is known as the Brønsted acid, while the species accepting the hydron is known as the Brønsted base. In the generic acid–base reaction shown below, HA is the acid, while B (shown with a lone pair) is the base:

+ :B → + :A
The hydrated form of the hydrogen cation, the (hydroxonium) ion (aq), is a key object of Arrhenius' definition of acid. Other hydrated forms, the , which is formed from a proton and two water molecules, and the , which is formed from a hydronium ion and three water molecules, are theorized to play an important role in the diffusion of protons though an according to the Grotthuss mechanism. Although the ion (aq) is often shown in introductory textbooks to emphasize that the hydron is never present as an unsolvated species in aqueous solution, it is somewhat misleading, as it oversimplifies infamously complex speciation of the solvated proton in water; the notation (aq) is often preferred, since it conveys aqueous solvation while remaining noncommittal with respect to the number of water molecules involved.

Isotopes of hydron
  1. , having the symbol p or H, is the +1 ion of , 1H.
  2. , having the symbol H or D, is the +1 ion of , H or D.
  3. Triton, having the symbol H or T, is the +1 ion of , H or T.
Other isotopes of hydrogen are too unstable to be relevant in chemistry.

History of the term
The term "hydron" is recommended by to be used instead of "proton" if no distinction is made between the isotopes proton, deuteron and triton, all found in naturally occurring mixtures. The name "proton" refers to isotopically pure H.Nomenclature of Inorganic Chemistry-IUPAC Recommendations 2005 [2] IR-3.3.2, p.48 On the other hand, calling the hydron simply hydrogen ion is not recommended because also exist. Compendium of Chemical Terminology, 2nd edition McNaught, A.D. and Wilkinson, A. Blackwell Science, 1997 , also online

The term "hydron" was defined by in 1988. Traditionally, the term "proton" was and is used in place of "hydron". The latter term is generally only used in the context where comparisons between the various isotopes of hydrogen is important (as in the kinetic isotope effect or hydrogen isotopic labeling). Otherwise, referring to hydrons as protons is still considered acceptable, for example in such terms as , , , or proton channel. The transfer of in an acid-base reaction is usually referred to as proton transfer. Acid and bases are referred to as proton donors and acceptors correspondingly.

99.9844% of natural hydrons (hydrogen nuclei) are protons, and the remainder (about 156 per million in sea water) are deuterons (see ), except for some very rare natural tritons (see ).

See also

: , , , ,
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