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9.7: Oxidation and Reduction Reactions

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    In the previous sections you learned about acids and bases, the pH scale, and acid-base reactions. In the following sections you will learn about another kind of reaction that appears in the chemistry of cooking: oxidation and reduction reactions. Chemists have a nickname for these kinds of reactions, "redox reactions."  Here are a few different places where we see redox reactions playing a role. 

    • Oxidation

      When food is exposed to oxygen it can causing it to lose or change flavor, color, texture, and nutritional value. 

      • Carmelization. Those delightful caramel and toasty flavors that come from the browning of sugars and starches arise from oxidation of the sugars and starches. Other browning arises from a collection of protein oxidations - leading to the roasted meat flavors arising from a process called the Maillard reaction. 

      • Rancidity. Oxygen can react with the double bonds present in fatty acids, which produces shorter-chain fatty acids. These shorter-chain fatty acids can produce odors and flavors which we detect as rancidity.

      • Browning. Oxidation is also observed in fruits and vegetables, causing them to turn brown, a process called enzymic browning. For example, if you cut an apple or avocado and leave it out for more than an hour, the tissue will be exposed to oxygen and the enzyme polyphenol oxidase will trigger, causing the fruit to turn brown. 

    • Reduction 

      • Anaerobic fermentation.  Anaerobic means "without air" - can be used to prepare pickles, cheeses, cured meats, coffee and tea, and more.  While some fermentation is aerobic, the anaerobic fermentation phases lead to a wide range of flavor profiles that arise from acetaldehyde, lactic acid, acetic acid, and other acids.

    • Antioxidants

      Molecules that can prevent oxidation reactions from occurring and food from spoiling too quickly. Antioxidant molecules are reducing agents, which means they cause other substances to be reduced while being oxidized themselves. Many brightly colored fruits and berries are rich in polyphenols, which are complex antioxidant compounds. Vitamin E and vitamin C are also antioxidants that can help prevent oxidation. Vitamin E prevents fats from becoming rancid, while vitamin C can be found in citrus fruits like oranges, lemons, and limes. 

    9.7: Oxidation and Reduction Reactions is shared under a not declared license and was authored, remixed, and/or curated by LibreTexts.

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