Article

Neodymium

Neodymium is a chemical element. Its official symbol is Nd, and its atomic number is 60, which means it has 60 protons in its nucleus.

Periodic table of elements: neodymium, symbol Nd, number 60

Elemental neodymium

On the periodic table of elements, neodymium is represented by the symbol Nd. It has an atomic number of 60 because it has 60 protons in its nucleus.

M-tic magnetic construction toy, © fir0002, CC BY-NC 3.0

Rights: The University of Waikato Te Whare Wānanga o Waikato

The element was discovered by Austrian chemist Baron Carl Auervon Welsbach in a roundabout way. Welsbach’s original elemental ‘discovery’ was didymium – a material he thought was an element. It even had the symbol Di in Mendeleev’s 1869 version of the periodic table of elements. Welsbach later separated the material into two elements – neodymium and praseodymium. The name neodymium comes from the Greek word neos (meaning new) and didymos (meaning twin). Praseodymium means green twin. The elements are so similar that they are next to each other on the periodic table.

Rare-earth elements

Neodymium is one of the 17 elements known as rare-earth elements. The rare-earth elements occur together on the periodic table. Fifteen of the elements, numbered 57–71, are in the row that sits under the main table. (This row is also called the lanthanide series.) Two more elements – scandium and yttrium – have similar chemical properties so they are also called rare-earth elements.

The rare-earth elements aren’t really all that rare. In the 18th and 19th centuries, materials were called ‘earths’ if they could not be changed further by heating them up. ‘Earths’ like magnesium were relatively easy to find. The rare-earth elements are dispersed or ‘sprinkled’ in ore deposits, rather than occurring as free elements or concentrated in minerals. At the time, they were difficult to locate so they were considered rare.

Neodymium is fairly common – it’s about as abundant as zinc and copper. However, it is dispersed throughout the Earth’s crust, with small amounts found here and there. Neodymium, like most rare-earth elements, is often a byproduct from other mining operations. If it is found with other rare-earth elements that are chemically similar, it becomes a complex process and a considerable expense to separate them. In 2019, a metric ton of neodymium oxide costs more than NZ$160,000! Compare that to NZ$4,000 for zinc and NZ$10,000 for copper. In spite of the price, neodymium and other rare-earth elements are in huge demand.

Using welding goggles to protect eyes whilst angle grinding

Welding goggles

Welding goggles protect the eyes from heat, debris and optical radiation. A mixture of neodymium and praseodymium salts is used to colour the glass.

Rights: Jozef Polc, 123RF Ltd

Uses of neodymium

Neodymium compounds were first used to colour glass. Its properties cause the colour of the glass to change from purple to yellow to blue or green under different lighting conditions. We still use neodymium compounds in glass products today – to whiten the light in incandescent bulbs and to make goggles for welders and glass blowers.

The real demands for neodymium are in products likely to be found in your pocket and throughout the classroom. Neodymium, iron and boron (NIB) combine to create very powerful magnets. A 1 g NIB magnet can hold up a 1.3 kg iron sphere! Tiny NIB magnets are found in cell phones, earbuds, computer hard drives and DVD and CD players. Larger NIB magnets are used in the electric motors of hybrid and electric vehicles and in some wind turbines. NIB magnets are also used to identify counterfeit money. Real paper money has tiny magnetic particles added to the inks when they are printed.

Neodymium magnets

Neodymium magnets

The element neodymium combines with iron and boron to create powerful permanent magnets. The lightweight yet strong magnets have many uses in modern technology.

Rights: 8vfanrf, 123RF Ltd

NIB magnets and toys

Neodymium magnets are exceptionally strong. They have a very strong attraction to one another and can move considerable distances and at great speed. There are reports that people have had fingers crushed when caught between two magnets.

Magnetic building sets with rods and balls have been redesigned to make them safer to use. The tiny, strong neodymium magnets make the building sets lots of fun, but if the magnets come loose, they can be dangerous if swallowed. The magnets attract each other and can cause tears in the stomach and intestines.

Nature of Technology

Rare-earth elements are difficult to mine and process. Their production requires careful management to minimise the associated environmental hazards. Only a few countries mine and process rare-earth elements. As the demand grows, supply has – at times – become a political issue.

One solution is to recover and reuse rare-earth materials from cell phones, hard drives and other electronic devices. The technology to recycle rare-earth materials is becoming more efficient and cost-effective. This will allow the materials to be processed on much larger scales.

Related collection

The Science Learning Hub team has curated a collection of resources related to the periodic table of elements. Log in to make this collection part of your private collection, just click on the copy . You can then add additional content and notes and make other changes. Registering an account for the Science Learning Hub is easy and free – sign up with your email address or Google account. Look for the Sign in button at the top of each page.

Useful links

Rare opportunity to recycle rare earths discusses some of the issues and technology involved with rare-earth production and recycling.

Rare earths statistics and information provides statistics and information on the worldwide supply of, demand for, and flow of the mineral commodity group rare earths – scandium, yttrium and the lanthanides from the U.S. Geological Survey website.

Read about the history and future of rare earth elements from the Science History Institute.

Published: 26 July 2019