Guide The Rare Earth Elements: Fundamentals and Applications (EIC Books)

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The Rare Earth Elements

Brand New!. Seller Inventory BTE Publisher: Wiley , This specific ISBN edition is currently not available. View all copies of this ISBN edition:. Synopsis About this title Lanthanides are of great importance for the electronic industries, this new book from the EIBC Book Series provides a comprehensive coverage of the basic chemistry, particularly inorganic chemistry, of the lanthanoid elements, those having a 4f shell of electrons.

From the Back Cover : Lanthanides [or Lanthanoids] are the elements with atomic numbers 57 to 71 on the Periodic Table. Buy New View Book. These are all naturally occurring elements, and chemists were able to discover and isolate them by studying a wide variety of different minerals from around the world, like elemental prospectors hunting out new finds.

But since the mids chemists have learned to control nuclear reactions to generate their own elements in effect, achieving transmutation and the dreams of the alchemists. So far, 24 elements have been artificially crafted; extending the bottom row of the periodic table with new creations. These elements do not exist naturally on Earth — their atomic nuclei are so swollen and unstable that they rapidly undergo radioactive decay or nuclear fission to break down again to other elements.


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The last, element , was only formally named in November oganesson. Scientists are now contemplating a bold prospect: starting a whole new, eighth row of the periodic table and entering completely uncharted territory right at the extremities of the chemical world. These synthetic elements have no applications — they can only ever be made in absolutely trace amounts, and they rapidly decay — but concern is mounting about the growing scarcity of many exotic elements that have become utterly critical to the workings of our modern world.

Our repertoire has begun to diversify over the past century or so, with the widespread use of aluminium and other new metals. But in the past few decades the number of different metals we wield in our technological society has absolutely exploded. A modern smartphone contains more than 30 different elements. These include carbon and hydrogen in the plastic casing, silicon for the microchip wafers, and copper wiring and gold contacts. But there are also small amounts of a large number of other metals, each exploited for its own particular electronic properties, or for the tiny, powerful magnets used in the speaker and vibration motor.

This means that if you own a smartphone, you have in your pocket a substantial fraction of all the stable elements of the periodic table. So too do the high-performance alloys used in the turbines of a power station or aircraft jet engine, or the reaction-accelerating catalysts that we use in industrial chemistry for refining oil, producing plastics or synthesising modern medicinal drugs.

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Yet most of us have never even heard of many of these critical metals — elements with exotic names like tantalum, yttrium or dysprosium. The concern is that unlike widespread resources like iron or nitrogen, several of these elements crucial to the modern world may become prohibitively scarce. These have become known as the endangered elements. Chemistry World. Education in Chemistry. Open Access.

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  • The Rare Earth Elements: Fundamentals and Applications.
  • The Rare Earth Elements: Fundamentals and Applications.
  • Issue 40, Previous Article Next Article. From the journal: Chemical Communications. Structural and electrochemical characterization of a cerium IV hydroxamate complex: implications for the beneficiation of light rare earth ores.

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