Chemically inert
In chemistry, the term chemically inert is used to describe a substance that is not chemically reactive. From a thermodynamic perspective, a substance is inert, or nonlabile, if it is thermodynamically unstable (positive standard Gibbs free energy of formation) yet decomposes at a slow, or negligible rate.[1]
Most of the noble gases, which appear in the last column of the periodic table, are classified as inert (or unreactive). These elements are stable in their naturally occurring form (gaseous form) and they are called inert gases.[2]
Noble gas
The noble gases (helium, neon, argon, krypton, xenon and radon) were previously known as 'inert gases' because of their perceived lack of participation in any chemical reactions. The reason for this is that their outermost electron shells (valence shells) are completely filled, so that they have little tendency to gain or lose electrons. They are said to acquire a noble gas configuration, or a full electron configuration.
It is now known that most of these gases in fact do react to form chemical compounds, such as xenon tetrafluoride. Hence, they have been renamed to 'noble gases', as the only two of these we know truly to be inert are helium and neon. However, a large amount of energy is required to drive such reactions, usually in the form of heat, pressure, or radiation, often assisted by catalysts. The resulting compounds often need to be kept in moisture-free conditions at low temperatures to prevent rapid decomposition back into their elements.
Inert gas
The term inert may also be applied in a relative sense. For example, molecular nitrogen is an inert gas under ordinary conditions, existing as diatomic molecules, N
2. The presence of a strong triple covalent bond in the N
2 molecule renders it unreactive under normal circumstances. Nevertheless, nitrogen gas does react with the alkali metal lithium to form compound lithium nitride (Li3N), even under ordinary conditions. Under high pressures and temperatures and with the right catalysts, nitrogen becomes more reactive; the Haber process uses such conditions to produce ammonia from atmospheric nitrogen.[3]
Main uses
Inert atmospheres consisting of gases such as argon, nitrogen, or helium are commonly used in chemical reaction chambers and in storage containers for oxygen- or water-sensitive substances, to prevent unwanted reactions of these substances with oxygen or water. [4]
Argon is widely used in fluorescence tubes and low energy light bulbs. Argon gas helps to protect the metal filament inside the bulb from reacting with oxygen and corroding the filament under high temperature.[5]
Neon is used in making advertising signs. Neon gas in a vacuum tube glows bright red in colour when electricity is passed through. Different coloured neon lights can also be made by using other gases.[6]
Helium gas is mainly used to fill hot air and party balloons. Balloons filled with it float upwards and this phenomenon is achieved as helium gas is less dense than air.[7]
See also
References
- Atkins, Peter William; Jones, Loretta (2010). Chemical principles: the quest for insight (5th ed.). New York: W.H. Freeman. p. 320. ISBN 9781429219556. OCLC 501943698.
- "The MSDS HyperGlossary: Inert". www.ilpi.com. Retrieved 2018-08-26.
- "The Haber Process for the manufacture of ammonia". www.chemguide.co.uk. Retrieved 2018-08-26.
- "BBC - GCSE Bitesize: Noble gases". Retrieved 2018-08-26.
- "Argon (Ar) - Chemical properties, Health and Environmental effects". www.lenntech.com. Retrieved 2018-08-26.
- "A Brief Summary of the Important Uses of Neon". ScienceStruck. Retrieved 2018-08-26.
- "It's Elemental - The Element Helium". education.jlab.org. Retrieved 2018-08-26.