2019 has been declared by UNESCO as the Year of the Periodic Table. To celebrate, we are releasing a series of blogs about our favourite elements and their importance to the chemical industry. Today, we investigate the uses of platinum.
Around 1200BC, archaeologists discovered traces of platinum in gold in ancient Egyptian burials.
However, the extent of Egyptians’ knowledge of the metal remains unknown, which suggests that Egyptians might have been unaware that platinum existed in the gold.
The Ancient Egyptians made elaborate masks for royals to wear once they were mummified.
Platinum was also used by South Americans with dates going back 2000 years. Burial goods show that in the pacific coast of South America, people were able to work platinum, producing artifacts of a white gold-platinum alloy.
Archaeologists link the South American tradition of platinum-working with the La Tolita Culture. Archaeological sites show the highly artistic nature of this culture, with the artifacts characterised by gold and platinum jewellery, and anthropomorphic masks symbolising the hierarchical and ritualistic society.
What are its properties?
Platinum is a silvery white metal, also known as ‘white gold’. It is extremely resistant to tarnishing and corrosion and it is one of the least reactive metals, unaffected by water and air, which means it will not oxidise with air.
It is also very soft and malleable, and therefore can be shaped easily and due to its ductility, it can be easily stretched into wire.
Platinum is a member of group 10 of the periodic table. The group 10 metals have several uses including decorative purposes, electrical components, catalysts in a variety of chemical reactions and play an important role in biochemistry, particularly platinum compounds which have widely been used as anticancer drugs.
Additionally, platinum’s tarnish resistance characteristics makes it one the most well-suited elements for making jewelry.
Platinum bonds are often used as a form of medicine in treatments for cancer. However, the health effects of platinum are dependent on the kinds of bonds that are formed, levels of exposure, and the immunity of the individual.
In 1844, Michele Peyrone, an Italian chemist, discovered the anti-neo plastic properties (apparently prohibiting the development of tumours) and later in 1971, the first human cancer patient was treated with drugs containing platinum.
Today, approximately 50% of patient are treated using medicine which includes the rare metal. Scientists will look further into all the ways platinum drugs affect biology, and how to design better platinum drugs in the future.