oxoacids

A similar method is the electrocatalytic evolution from oxides and oxoacids.

Phosphorous oxoacids are extensive, often commercially important, and sometimes structurally complicated.

They are called "acid anhydrides"; adding water, they form oxoacids.

Many oxoacids of sulfur are known and all feature OH groups that can dissociate.

Of the many phosphorus oxoacids, the phosphoric acids constitute the largest and most diverse group.

"Pauling's rules" can also refer to two rules used in predicting the strengths of oxoacids.

The effect can also be clearly seen in the dissociation constants of the oxoacids of chlorine.

Like oxoacids, metaoxyacids share a few similarities.

An alternative usage of this phrase refers to rules used to predict the strengths of oxoacids.

The sulfur oxoacids are chemical compounds that contain sulfur, oxygen and hydrogen.

Oxidative deamination is a form of deamination that generates oxoacids in the liver.

The term ortho acid is also used to refer to the most hydroxylated acid in a set of oxoacids.

It is the least stable of the halogen(VII) oxoacids.

Thioacids are sulphur analogues of oxoacids.

Phosphorus acids are oxoacids of phosphorus.

Generally, oxoacids are simply polyatomic ions with a hydrogen cation, and a metaoxyacid is similar but less reactive.

Ortho acids are the most hydroxylated acid in a set of oxoacids, such as orthophosphoric acid.

Generally, oxoacids are simply polyatomic ions with a positively polarized hydrogen, which can be split off as a cation(ion).

Keto acids (or oxoacids) are organic compounds that contain a carboxylic acid group and a ketone group.

Binary Acids are one of two classes of acids, the second being the oxoacids, which consist of a hydrogen, oxygen, and some other element.

Sulfinic acids are oxoacids of sulfur with the structure RSO(OH).

Sulfur has a number of oxoacids; however, some of these are known only from their salts (these are shown in italics in the table below).

It was later discovered that some acids, notably hydrochloric acid, did not contain oxygen and so acids were divided into oxoacids and these new hydracids.

All oxoacids have the acidic hydrogen bound to an oxygen atom, so bond strength (length) is not a factor, as it is with binary nonmetal hydrides.