• Source: Gallium compounds

Gallium compounds are compounds containing the element gallium. These compounds are found primarily in the +3 oxidation state. The +1 oxidation state is also found in some compounds, although it is less common than it is for gallium's heavier congeners indium and thallium. For example, the very stable GaCl2 contains both gallium(I) and gallium(III) and can be formulated as GaIGaIIICl4; in contrast, the monochloride is unstable above 0 °C, disproportionating into elemental gallium and gallium(III) chloride. Compounds containing Ga–Ga bonds are true gallium(II) compounds, such as GaS (which can be formulated as Ga24+(S2−)2) and the dioxan complex Ga2Cl4(C4H8O2)2. There are also compounds of gallium with negative oxidation states, ranging from -5 to -1, most of these compounds being magnesium gallides (MgxGay).




Aqueous chemistry



Strong acids dissolve gallium, forming gallium(III) salts such as Ga(NO3)3 (gallium nitrate). Aqueous solutions of gallium(III) salts contain the hydrated gallium ion, [Ga(H2O)6]3+.: 1033  Gallium(III) hydroxide, Ga(OH)3, may be precipitated from gallium(III) solutions by adding ammonia. Dehydrating Ga(OH)3 at 100 °C produces gallium oxide hydroxide, GaO(OH).: 140–141 
Alkaline hydroxide solutions dissolve gallium, forming gallate salts (not to be confused with identically named gallic acid salts) containing the Ga(OH)−4 anion.: 1033  Gallium hydroxide, which is amphoteric, also dissolves in alkali to form gallate salts.: 141  Although earlier work suggested Ga(OH)3−6 as another possible gallate anion, it was not found in later work.




Oxides and chalcogenides



Gallium reacts with the chalcogens only at relatively high temperatures. At room temperature, gallium metal is not reactive with air and water because it forms a passive, protective oxide layer. At higher temperatures, however, it reacts with atmospheric oxygen to form gallium(III) oxide, Ga2O3. Reducing Ga2O3 with elemental gallium in vacuum at 500 °C to 700 °C yields the dark brown gallium(I) oxide, Ga2O.: 285  Ga2O is a very strong reducing agent, capable of reducing H2SO4 to H2S.: 207  It disproportionates at 800 °C back to gallium and Ga2O3.
Gallium(III) sulfide, Ga2S3, has 3 possible crystal modifications.: 104  It can be made by the reaction of gallium with hydrogen sulfide (H2S) at 950 °C.: 162  Alternatively, Ga(OH)3 can be used at 747 °C:

2 Ga(OH)3 + 3 H2S → Ga2S3 + 6 H2O
Reacting a mixture of alkali metal carbonates and Ga2O3 with H2S leads to the formation of thiogallates containing the [Ga2S4]2− anion. Strong acids decompose these salts, releasing H2S in the process.: 104–105  The mercury salt, HgGa2S4, can be used as a phosphor.
Gallium also forms sulfides in lower oxidation states, such as gallium(II) sulfide and the green gallium(I) sulfide, the latter of which is produced from the former by heating to 1000 °C under a stream of nitrogen.: 94 
The other binary chalcogenides, Ga2Se3 and Ga2Te3, have the zincblende structure. They are all semiconductors but are easily hydrolysed and have limited utility.: 104 




Nitrides and pnictides



Gallium reacts with ammonia at 1050 °C to form gallium nitride, GaN. Gallium also forms binary compounds with phosphorus, arsenic, and antimony: gallium phosphide (GaP), gallium arsenide (GaAs), and gallium antimonide (GaSb). These compounds have the same structure as ZnS, and have important semiconducting properties.: 1034  GaP, GaAs, and GaSb can be synthesized by the direct reaction of gallium with elemental phosphorus, arsenic, or antimony.: 99  They exhibit higher electrical conductivity than GaN.: 101  GaP can also be synthesized by reacting Ga2O with phosphorus at low temperatures.
Gallium forms ternary nitrides; for example:: 99 

Li3Ga + N2 → Li3GaN2
Similar compounds with phosphorus and arsenic are possible: Li3GaP2 and Li3GaAs2. These compounds are easily hydrolyzed by dilute acids and water.: 101 




Halides



Gallium(III) oxide reacts with fluorinating agents such as HF or F2 to form gallium(III) fluoride, GaF3. It is an ionic compound strongly insoluble in water. However, it dissolves in hydrofluoric acid, in which it forms an adduct with water, GaF3·3H2O. Attempting to dehydrate this adduct forms GaF2OH·nH2O. The adduct reacts with ammonia to form GaF3·3NH3, which can then be heated to form anhydrous GaF3.: 128–129 
Gallium trichloride is formed by the reaction of gallium metal with chlorine gas. Unlike the trifluoride, gallium(III) chloride exists as dimeric molecules, Ga2Cl6, with a melting point of 78 °C. Equivalent compounds are formed with bromine and iodine, Ga2Br6 and Ga2I6.: 133 
Like the other group 13 trihalides, gallium(III) halides are Lewis acids, reacting as halide acceptors with alkali metal halides to form salts containing GaX−4 anions, where X is a halogen. They also react with alkyl halides to form carbocations and GaX−4.: 136–137 
When heated to a high temperature, gallium(III) halides react with elemental gallium to form the respective gallium(I) halides. For example, GaCl3 reacts with Ga to form GaCl:

2 Ga + GaCl3 ⇌ 3 GaCl (g)
At lower temperatures, the equilibrium shifts toward the left and GaCl disproportionates back to elemental gallium and GaCl3. GaCl can also be produced by reacting Ga with HCl at 950 °C; the product can be condensed as a red solid.: 1036 
Gallium(I) compounds can be stabilized by forming adducts with Lewis acids. For example:

GaCl + AlCl3 → Ga+[AlCl4]−
The so-called "gallium(II) halides", GaX2, are actually adducts of gallium(I) halides with the respective gallium(III) halides, having the structure Ga+[GaX4]−. For example:: 1036 

GaCl + GaCl3 → Ga+[GaCl4]−




Hydrides


Like aluminium, gallium also forms a hydride, GaH3, known as gallane, which may be produced by reacting lithium gallanate (LiGaH4) with gallium(III) chloride at −30 °C:: 1031 

3 LiGaH4 + GaCl3 → 3 LiCl + 4 GaH3
In the presence of dimethyl ether as solvent, GaH3 polymerizes to (GaH3)n. If no solvent is used, the dimer Ga2H6 (digallane) is formed as a gas. Its structure is similar to diborane, having two hydrogen atoms bridging the two gallium centers,: 1031  unlike α-AlH3 in which aluminium has a coordination number of 6.: 1008 
Gallane is unstable above −10 °C, decomposing to elemental gallium and hydrogen.




Organogallium compounds



Organogallium compounds are of similar reactivity to organoindium compounds, less reactive than organoaluminium compounds, but more reactive than organothallium compounds. Alkylgalliums are monomeric. Lewis acidity decreases in the order Al > Ga > In and as a result organogallium compounds do not form bridged dimers as organoaluminium compounds do. Organogallium compounds are also less reactive than organoaluminium compounds. They do form stable peroxides. These alkylgalliums are liquids at room temperature, having low melting points, and are quite mobile and flammable. Triphenylgallium is monomeric in solution, but its crystals form chain structures due to weak intermolecluar Ga···C interactions.
Gallium trichloride is a common starting reagent for the formation of organogallium compounds, such as in carbogallation reactions. Gallium trichloride reacts with lithium cyclopentadienide in diethyl ether to form the trigonal planar gallium cyclopentadienyl complex GaCp3. Gallium(I) forms complexes with arene ligands such as hexamethylbenzene. Because this ligand is quite bulky, the structure of the [Ga(η6-C6Me6)]+ is that of a half-sandwich. Less bulky ligands such as mesitylene allow two ligands to be attached to the central gallium atom in a bent sandwich structure. Benzene is even less bulky and allows the formation of dimers: an example is [Ga(η6-C6H6)2] [GaCl4]·3C6H6.




See also


Organogallium chemistry
Category:Gallium compounds
Aluminium compounds
Indium compounds
Germanium compounds




References

Kata Kunci Pencarian:

• Galium
• Spektroskopi inframerah
• Aluminium asetat
• Aluminium karbonat
• Kalium
• Timah
• Antimon
• Europium
• Indium
• Litium
• Gallium compounds
• Gallium
• Gallium nitride
• Gallium arsenide
• Gallium(III) chloride
• Aluminium gallium arsenide
• Gadolinium gallium garnet
• Gallium antimonide
• Gallium acetate
• Aluminium gallium nitride