Lithium bromide

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Lithium bromide

Lithium bromide (LiBr) represents a compound constituted by the elements lithium and bromine. Recognized for its intensely hygroscopic nature, LiBr serves as an indispensable desiccant in select air conditioning configurations.

Production and Properties[edit | edit source]

LiBr is synthesized via the interaction of lithium carbonate with hydrobromic acid. A distinction of this salt lies in its ability to form several crystalline hydrates, unlike other alkali metal bromides.[2] The anhydrous variant of the salt yields cubic crystals, drawing parallels to the structure of common salt (or sodium chloride).

The reaction between lithium hydroxide and hydrobromic acid (an aqueous solution of hydrogen bromide) in the presence of water results in the precipitation of lithium bromide:

LiOH + HBr → LiBr + H2O

Uses of Lithium Bromide[edit | edit source]

LiBr's utility can be categorized as follows:

  • As a desiccant in air-conditioning systems.
  • In conjunction with water, it is employed as a salt in absorption chilling processes (refer to absorption refrigerator).
  • Beyond its industrial applications, the salt also holds significance as a reagent in organic synthesis, establishing reversible adducts with certain pharmaceuticals.

Medical Applications[edit | edit source]

Historically, in the dawn of the 1900s, lithium bromide was utilized as a sedative. However, its usage waned by the 1940s following incidents where heart patients succumbed after adopting it as a salt substitute. LiBr shared a therapeutic profile with lithium carbonate and lithium chloride, both of which were harnessed in the management of bipolar disorder.

Bromism, a potential side effect, could manifest with doses as minute as 225 mg/day of LiBr.

Hazards Associated with Lithium Bromide[edit | edit source]

Lithium salts are recognized to exert psychoactive effects and possess a certain degree of corrosiveness. A notable reaction of lithium bromide involves its dissolution in water, which is intensely exothermic. Given the array of potential implications associated with its use, appropriate precautions and guidance are paramount when handling or consuming compounds containing LiBr.

Lithium bromide Resources



Contributors: Prab R. Tumpati, MD