Methods of Preparation:
Methods of preparation of Alkanes:
1) Hydrogenation of alkene or alkynes:
Alkane is prepared by heating alkenes or alkynes with hydrogen in presence of Ni-catalyst at about 200-300ْ C.
CH3—CH==CH2 + H2 —-(Ni-catalyst)—> CH3 — CH2—CH3
CH3 — C ≡ CH + 2H2 —-(Ni/Δ)—-> CH3 — CH2—CH3
2) From alkyl Halides (Wurtz Reaction):
Symmetrical alkane is prepared by treating alkyl halide with sodium metal in presence of dry ether.
R—X + 2Na + X— R —-> R— R + NaX
CH3—Br + 2Na + Br—CH3 —–> CH3 — CH3 + NaBr
Note:
R—X + 2Na + X— R΄ ——–> R— R + R— R΄ + R΄— R΄ + NaX
3) Hydrolysis of Grignard Reagent:
Alkyl magnesium halides (Grignard reagent) on treatment with water give alkanes.
CH3 Mg Br + HO—H ——-> CH4 + Mg (OH) Br
4) Decarboxylation of Carboxylic acid:
Alkane is prepared by heating sodium salt of carboxylic acid with sodalime (NaOH + CaO).
R—COONa + NaOH —-[CaO/ Δ]——> R— H + Na2CO3
CH3—COONa + NaOH —-[CaO/ Δ]—->CH3— H + Na2CO3
Sodium acetate Methane
5) Reduction of alkyl halides:
Alkyl halides undergo reduction with nascent hydrogen to form alkanes. R—X + 2[H] —-ZnCl2/Δ]—-> R— H + HX
CH3—I + 2[H] —[ZnCl2/Δ]—-> CH3— H + HI
6) Kolbe’s Synthesis:
Alkane is prepared by electrolysis of a concentrated solution of sodium salt of carboxylic acid.
2R—COONa —–> 2R— COO– + 2Na+
At anode: 2R— COO– – 2e —–> 2[R— COO] ——–> R—R + 2CO2
At cathode: Na+ + e ——–> Na
Na + H2O ——–> NaOH + H2