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.
Discovery of this noble gas:
In 1894 argon was discovered by chemists Sir William Ramsay and Lord Rayleigh. Ramsay believed the presence of a heavy impurity in the ‘atmospheric’ nitrogen could be responsible for giving nitrogen a higher density when isolated from the air. Both scientists worked to discover this unrecognised new element hiding in the air, winning a Nobel Prize in 1904, primarily for their role in the discovery of argon.
Argon makes up 1% of the earth’s atmosphere and it is the most plentiful of the rare gases. Argon can be both used in its gaseous state and its liquid form. In its liquid state, argon can be stored and transported more easily, affording a cost-effective way to deliver product supply.
Argon as a narcotic agent
One of the most well-known biological effects of argon gas is in its narcotic capabilities. Sea divers normally develop narcotic symptoms under high pressure with normal respiratory air. These symptoms include slowed mental cognition and psychological instability. Argon exerts this narcotic effect in a physical way rather than in a chemical way, as argon, an inert gas, does not undergo chemical reactions in the body.
During the heating and cooling of printing materials, argon provides several benefits to this process. The gas reduces oxidation of the metal preventing reactions and keeping out impurities. This creates a stable printing environment as a constant pressure is maintained.
Future of argon
Argon as a clinical utility tool has received maximum attention. Although the potential benefits are still in the experimental stages, argon could be the ideal neuroprotective agent. Studies have shown that argon could improve cell survival, brain structural integrity and neurological recovery. These protective effects are also efficient when delivered up to 72 hours after brain injury.