Basicity

Tetrahydroxyborate acts as a weak Brønsted–Lowry base because it can assimilate a proton (H⁺), yielding boric acid with release of water:

B(OH)−4 +  H⁺ ⇌ B(OH)₃ + H₂O

It can also release a hydroxide anion HO⁻, thus acting as a classical Arrhenius base:

B(OH)−4 ⇌ B(OH)₃ +  OH⁻ (pK = 9.14 to the left)^{[citation needed]}

Thus, when boric acid is dissolved in pure (neutral) water, most of it will exist as tetrahydroxyborate ions.^{[citation needed]}

With diols

In aqueous solution, the tetrahydroxyborate anion reacts with cis-vicinal diols (organic compounds containing similarly-oriented hydroxyl groups in adjacent carbon atoms), (R₁,R₂)=C(OH)−C(OH)=(R₃,R₄)) such as mannitol, sorbitol, glucose and glycerol, to form anion esters containing one or two five-member −B−O−C−C−O− rings.^[4]

For example, the reaction with mannitol can be written as

[B(OH)₄]⁻ + H(HCOH)₆H ⇌ [B(OH)₂(H(HCOH)₂(HCO−)₂(HCOH) )]⁻ + 2 H₂O

[B(OH)₂(H(HCOH)₂(HCO−)₂(HCOH)₂H)]⁻ + H(HCOH)₆H ⇌ [B(H(HCOH)₂(HCO−)₂(HCOH)₂H)₂]⁻ + 2 H₂O

Giving the overall reaction

[B(OH)₄]⁻ + 2 H(HCOH)₆H ⇌ [B(H(HCOH)₂(HCO−)₂(HCOH)₂H)₂]⁻ + 4 H₂O

These mannitoborate esters are fairly stable and thus depletes the tetrahydroxyborate from the solution.^[5][6][3]

The addition of mannitol to an initially neutral solution containing boric acid or borates lowers the pH enough for the be titrated by a strong base as NaOH, including with an automated a potentiometric titrator. This is a reliable method to assay the amount of borate content present in the solution.^[3]

Other chemical reactions

Upon treatment with a strong acid, a metal tetrahydroxyborate converts to boric acid and the metal salt.

Oxidation of tetrahydroxyborate gives the perborate anion [B₂O₄(OH)₄]²⁻:

2[B(OH)₄]⁻ + 2O → [B₂O₄(OH)₄]²⁻ + 2H₂O

When heated to a high temperature, tetrahydroxyborate salts decompose to produce metaborate salts and water, or to produce boric acid and a metal hydroxide:

n [B(OH)₄]⁻ → (([BO₂]⁻)_n) + 2n H₂O

[B(OH)₄]⁻ → B(OH)₃ + HO⁻