- •A Periodic Table of the Elements at Los Alamos National Laboratory
- •Hydrogen
- •Helium
- •Lithium
- •Beryllium
- •Boron
- •Carbon
- •Nitrogen
- •Oxygen
- •Fluorine
- •Neon
- •Sodium
- •Magnesium
- •Aluminum
- •Silicon
- •Phosphorus
- •Sulfur
- •Chlorine
- •Argon
- •Potassium
- •Calcium
- •Scandium
- •Tungsten
- •Zinc
- •Zirconium
- •Iron
- •Manganese
- •Antimony
- •Copper
- •Silver
- •Nickel
- •Chromium
- •Vanadium
- •Yttrium
- •Titanium
- •Molybdenum
- •Common Isotopes
- •Mercury
- •Cobalt
- •Lead
- •Gallium
- •Cesium
- •Rubidium
- •Germanium
- •Arsenic
- •Selenium
- •Bromine
- •Krypton
- •Strontium
- •Niobium
- •Technetium
- •Ruthenium
- •Rhodium
- •Palladium
- •Cadmium
- •Indium
- •Tellurium
- •Iodine
- •Xenon
- •Barium
- •Lanthanum
- •Hafnium
- •Tantalum
- •Rhenium
- •Platinum
- •Iridium
- •Osmium
- •Gold
- •Thallium
- •Bismuth
- •Polonium
- •Astatine
- •Radon
- •Francium
- •Radium
- •Actinium
- •Rutherfordium
- •Hahnium
- •Seaborgium
- •Nobelium
- •Neilsborium
- •Hassium
- •Meitnerium
- •Element 110
- •Element 111
- •Element 112
- •Mysterious Elements 114, 116, & 118
- •Cerium
- •Thorium
- •Europium
- •Praseodymium
- •Neodymium
- •Promethium
- •Samarium
- •Gadolinium
- •Terbium
- •Dysprosium
- •Holmium
- •Erbium
- •Thulium
- •Ytterbium
- •Lutetium
- •Protactinium
- •Uranium
- •Neptunium
- •Plutonium
- •Americium
- •Curium
- •Berkelium
- •Californium
- •Einsteinium
- •Fermium
- •Mendelevium
- •Lawrencium
- •Element Listing
- •Tell us or ask us
- •What is the Periodic Table?
- •How to Use the Periodic Table
- •Nutshell Chemistry
- •Mendeleev's Table
- •PERIODIC TABLE OF THE ELEMENTS
Lanthanum
Lanthanum
For camera lenses.
History
(Greek lanthanein, to lie hidden) Mosander in 1839 extracted a new earth lanthana, from impure cerium nitrate and recognized the new element.
Lanthanum was isolated in relatively pure form in 1923. Iron exchange and solvent extraction techniques have led to much easier isolation of the so-called "rare-earth" elements.
Sources
Lanthanum is found in rare-earth minerals such as cerite, monazite, allanite, and bastnasite. Monazite and bastnasite are principal ores in which lanthanum occurs in percentages up to 25 percent and 38 percent respectively. Misch metal, used in making lighter flints, contains about 25 percent lanthanum.
The availability of lanthanum and other rare earths has improved greatly in recent years. The metal can be produced by reducing the anhydrous fluoride with calcium .
Properties
Lanthanum is silvery white, malleable, ductile, and soft enough to be cut with a knife. It is one of the most reactive of the rare-earth metals. It oxidizes rapidly when exposed to air. Cold water attacks lanthanum slowly, while hot water attacks it much more rapidly.
The metal reacts directly with elemental carbon, nitrogen, boron, selenium, silicon, phosphorus, sulfur, and with halogens.
At 310C, lanthanum changes from a hexagonal to a face-centered cubic structure, and at 865C it again transforms into a body-centered cubic structure.
http://pearl1.lanl.gov/periodic/elements/57.html (1 of 2) [3/6/2001 8:38:17 AM]
Lanthanum
Isotopes
Natural lanthanum is a mixture of two stable isotopes, 138La and 139La. Twenty three other radioactive isotopes are recognized.
Uses
Rare-earth compounds containing lanthanum are extensively used in carbon lighting applications, especially by the motion picture industry for studio lighting and projection. This application consumes about 25 percent of the rare-earth compounds produced. La2O3 improves the alkali resistance of glass, and is used in making special optical glasses. Small amounts of lanthanum, as an additive, can be used to produce nodular cast iron.
There is current interest in hydrogen sponge alloys containing lanthanum. These alloys take up to 400 times their own volume of hydrogen gas, and the process is reversible. Every time they take up the gas, heat energy is released; therefore these alloys have possibilities in an energy conservation system.
Handling
Lanthanum and its compounds have a low to moderate acute toxicity rating; therefore, care should be taken in handling them.
Costs
The metal costs about $5/g.
Sources: CRC Handbook of Chemistry and Physics and the American Chemical Society.
Last Updated: 12/19/97, CST Information Services Team
http://pearl1.lanl.gov/periodic/elements/57.html (2 of 2) [3/6/2001 8:38:17 AM]
Hafnium
Hafnium
For nuclear submarines
History
(Hafinia, Latin name for Copenhagen) Many years before its discovery in 1932 (credited to D. Coster and G. von Hevesey), Hafnium was thought to be present in various minerals and concentrations. On the basis of the Bohr theory, the new element was expected to be associated with zirconium.
It was finally identified in zircon from Norway, by means of X-ray spectroscope analysis. It was named in honor of the city in which the discovery was made. Most zirconium minerals contain 1 to 5 percent hafnium.
It was originally separated from zirconium by repeated recrystallization of the double ammonium or potassium fluorides by von Hevesey and Jantzen. Metallic hafnium was first prepared by van Arkel and deBoer by passing the vapor of the tetraiodide over a heated tungsten filament. Almost all hafnium metal now produced is made by reducing the tetrachloride with magnesium or with sodium (Kroll Process).
Properties
Hafnium is a ductile metal with a brilliant silver luster. Its properties are considerably influenced by presence of zirconium impurities. Of all the elements, zirconium and hafnium are
http://pearl1.lanl.gov/periodic/elements/72.html (1 of 2) [3/6/2001 8:38:18 AM]
Hafnium
two of the most difficult to separate. Although their chemistry is almost identical, the density of zirconium is about half of hafnium. Very pure hafnium has been produced, with zirconium being the major impurity.
Hafnium has been successfully alloyed with iron , titanium , niobium , tantalum , and other
metals. Hafnium carbide is the most refractory binary composition known, and the nitride is the most refractory of all known metal nitrides (m.p. 3310C). At 700 degrees C hafnium rapidly absorbs hydrogen to form the composition HfH1.86.
Hafnium is resistant to concentrated alkalis, but at elevated temperatures reacts with oxygen, nitrogen, carbon , boron , sulfur , and silicon . Halogens react directly to form tetrahalides.
Uses
Because the element not only has a good absorption cross section for thermal neutrons (almost 600 times that of zirconium), but also excellent mechanical properties and is extremely corrosion-resistant, hafnium is used for reactor control rods. Such rods are used in nuclear submarines.
Hafnium is used in gas-filled and incandescent lamps, and is an efficient getter for scavenging oxygen and nitrogen.
Handling
Finely divided hafnium is pyrophoric and can ignite spontaneously in air. Care should be taken when machining the metal or when handling hot sponge hafnium.
Exposure to hafnium should not exceed 0.5 mg/hr. (8 hour time-weighted average - 40-hour week).
Costs
The price of the metal is in the broad range between $100/lb and $500/lb, depending on purity and quantity. The yearly demand for hafnium in the U.S. now exceeds 100,000 lb.
Sources: CRC Handbook of Chemistry and Physics and the American Chemical Society.
Last Updated: 12/19/97, CST Information Services Team
http://pearl1.lanl.gov/periodic/elements/72.html (2 of 2) [3/6/2001 8:38:18 AM]