amphoteric

(adjective)

Having the characteristics of both an acid and a base, and capable of reacting as either; amphiprotic.

Related Terms

(adjective)

Having the characteristics of both an acid and a base; capable of both donating and accepting a proton (amphiprotic).

Related Terms

(noun)

A molecule that can act as either an acid or a base depending on its chemical environment. For example, water (H2O) is amphoteric.

Related Terms

Examples of amphoteric in the following topics:

  • The Solubility of Amphoteric Metal Hydroxides

    • Amphoteric metal hydroxides behave as bases and acids, dissolving in excess alkali.
    • The oxides and hydroxides of the metals in Group 3 and higher tend to be weakly basic and mostly display an amphoteric nature.
    • An amphoteric substance is one that can act as either an acid or a base.
    • An example of an amphoteric compound that is not amphiprotic is ZnO, which can act as an acid even though it has no protons to donate.
    • An example of an amphoteric and amphiprotic substance is beryllium hydroxide (Be(OH)2):

  • Basic and Amphoteric Hydroxides

    • Some metal hydroxides are amphoteric, or capable of acting as either an acid or base.
    • Now we will examine amphoteric hydroxides—that is, hydroxide salts that can act as either an acid or a base, depending on reaction conditions.
    • One of the most common and familiar examples of an amphoteric hydroxide is aluminum hydroxide, Al(OH)3.
    • Metal hydroxides with a highly-charged central metal atom can be amphoteric.
    • In addition to aluminum, metals such as zinc, tin, lead, and beryllium can also form amphoteric oxides or hydroxides.

  • Brønsted Acids and Bases

    • Water is amphoteric, which means it can act as either an acid or a base.

  • Acid-Base Properties of Water

    • This is an example of autoprotolysis (meaning "self-protonating") and it exemplifies the amphoteric nature of water (ability to act as both an acid and a base).

  • Oxides

    • Oxides that react with both acids and bases are amphoteric.
    • Metals tend to form basic oxides, non-metals tend to form acidic oxides, and amphoteric oxides are formed by elements near the boundary between metals and non-metals (metalloids).

  • The Brønsted-Lowry Definition of Acids and Bases

    • Note that water is amphoteric; depending on the circumstances, it can act as either an acid or a base, either donating or accepting a proton.

  • Chromium

    • Chromium(III) hydroxide (Cr(OH)3) is amphoteric, dissolving in acidic solutions to form [Cr(H2O)6]3+ and in basic solutions to form [Cr(OH)6]3−.

  • Oxidation States of Nitrogen

    • If one of the alkyl substituents consists of a long chain, such as C12H25, the resulting amine oxide is an amphoteric surfactant and finds use in shampoos and other mild cleaning agents.

  • Synthesis of Amino Acids

    • Since amino acids are amphoteric, resolution could also be achieved by using the basic character of the amine function.

  • The Structure and Properties of Water

    • Water can be described as an amphoteric molecule, meaning that it can react as both a Brønsted-Lowry acid or base.