What Reactions Can Tetracarbon Decachloride Undergo?
Tetracarbon decachloride (C4Cl10) can undergo various chemical reactions, such as:
1. Hydrolysis: Tetracarbon decachloride reacts with water to form tetracarbon dioxide and hydrochloric acid.
C4Cl10 + 5H2O → 4CO2 + 10HCl
2. Reduction: Tetracarbon decachloride can be reduced by hydrogen gas or metal hydrides to form tetracarbon dichloride.
C4Cl10 + 2H2 → C4H2Cl2 + 8HCl
3. Oxidation: Tetracarbon decachloride can be oxidized by strong oxidizing agents, such as potassium permanganate or chlorine gas, to form carbon dioxide and other products.
C4Cl10 + 9O2 → 4CO2 + 5Cl2
4. Substitution: Tetracarbon decachloride can undergo substitution reactions with other halogens, such as bromine or iodine, to form new compounds.
C4Cl10 + Br2 → C4Br10 + Cl2
Overall, the reactivity of tetracarbon decachloride is mainly determined by its high electron density and strong polarization of the carbon-chlorine bonds.