aluminum

Examples of aluminum in the following topics:

• Aluminum

  • Aluminum is a soft, silvery metal in the boron group of the periodic table.
  • The important aluminum hydride is lithium aluminum hydride (LiAlH4), which is used as a reducing agent in organic chemistry.
  • Aluminum is the most widely used non-ferrous metal.
  • For example, the common aluminum foils and beverage cans are alloys of 92% to 99% aluminum.
  • Some of the many uses for aluminum metal are in:

• The Incomplete Octet

  • While most elements below atomic number 20 follow the octet rule, several exceptions exist, including compounds of boron and aluminum.
  • Boron and aluminum, from Group III (or 13), display different bonding behavior than previously discussed.
  • Compounds of aluminum follow similar trends.
  • Aluminum trichloride (AlCl3), aluminum hydride (AlH3), and aluminum hydroxide (Al(OH)3) indicate a valence of three for aluminum, with six valence electrons in the bonded molecule.
  • However, the stability of aluminum hydride ions (AlH4-) indicates that Al can also support an octet of valence shell electrons.

• Basic and Amphoteric Hydroxides

  • One of the most common and familiar examples of an amphoteric hydroxide is aluminum hydroxide, Al(OH)3.
  • We will now consider aluminum hydroxide's reaction in a strongly basic solution:
  • Here, aluminum hydroxide picks up an hydroxide ion out of solution, thereby acting as a Lewis acid.
  • In addition to aluminum, metals such as zinc, tin, lead, and beryllium can also form amphoteric oxides or hydroxides.
  • Aluminum hydroxide can act as either a Bronsted-Lowry base, by accepting protons from an acidic solution, or as a Lewis acid, by accepting an electron pair from hydroxide ions in a basic solution.

• Aluminosilicates

  • Aluminosilicate minerals are composed of aluminum, silicon, oxygen, and countercations.
  • Sodium aluminosilicates are acidic salts that is composed of sodium, aluminum, silicon and oxygen.

• Reduction

  • Indeed, it was noted earlier that carboxylic acids themselves are reduced to alcohols by lithium aluminum hydride.
  • Furthermore, oxygen forms especially strong bonds to aluminum.
  • Lithium aluminum hydride reduces nitriles to 1º-amines, as shown in the following equation.
  • The most fruitful approach to this end has been to attach alkoxy or alkyl groups on the aluminum.
  • The first (LtBAH) is a complex metal hydride, but the second is simply an alkyl derivative of aluminum hydride.

• The Solubility of Amphoteric Metal Hydroxides

  • In general, these compounds tend to be more basic than acidic; thus, the oxides and hydroxides of aluminum, iron, and zinc all dissolve in mildly acidic solution:

• Bonding in Metals: The Electron Sea Model

  • Aluminum foil and copper wire are examples of metallic bonding in action .
  • A sheet of aluminum foil is made up of metallic bonds.

• Overview of Reducing Agents

  • Note that Lithium Aluminum Hydride (LiAlH4) is the strongest reducing agent listed, and it reduces all the substrates.

• Ziegler-Natta Catalytic Polymerization

  • Ziegler-Natta catalysts are prepared by reacting certain transition metal halides with organometallic reagents such as alkyl aluminum, lithium and zinc reagents.

• Pictures of Modes

  • This particular stadium consists of an aluminum plate 194 mm long by 100 mm wide by about 3 mm thick.