Organic compounds can change through redox reactions without needing special helpers called catalysts. Here are some situations where this happens:
Burning (Combustion): When organic compounds combine with oxygen, they release energy. This process creates carbon dioxide (CO₂) and water (H₂O). In nature, about 90% of carbon from organic matter gets burned.
Electric Reactions: Some organic compounds can change when we apply electricity. This is called organic electrochemistry, where compounds can either gain or lose electrons.
Light Reactions (Photochemical): UV light can kick off redox reactions. In some cases, these reactions can be about 30% effective.
Heat Changes (Thermal Decomposition): When temperatures get really high, organic compounds can undergo redox reactions on their own. This usually happens when the energy needed is between 100 to 200 kilojoules per mole.
These examples show the different ways redox reactions can happen in organic chemistry.
Organic compounds can change through redox reactions without needing special helpers called catalysts. Here are some situations where this happens:
Burning (Combustion): When organic compounds combine with oxygen, they release energy. This process creates carbon dioxide (CO₂) and water (H₂O). In nature, about 90% of carbon from organic matter gets burned.
Electric Reactions: Some organic compounds can change when we apply electricity. This is called organic electrochemistry, where compounds can either gain or lose electrons.
Light Reactions (Photochemical): UV light can kick off redox reactions. In some cases, these reactions can be about 30% effective.
Heat Changes (Thermal Decomposition): When temperatures get really high, organic compounds can undergo redox reactions on their own. This usually happens when the energy needed is between 100 to 200 kilojoules per mole.
These examples show the different ways redox reactions can happen in organic chemistry.