[Chemistry Class Notes] on Thallium Pdf for Exam [2024]

Thallium is a chemical element having symbol TI with an atomic number of 81, as found in the periodic table. It is not found freely in nature and is a grey post-transition metal. Thallium resembles tin when it’s isolated but discolours when it is exposed to air. William Crookes and Claude-Auguste Lamy independently discovered Thallium in 1861. Approximately there are 81 electrons inside an atom of this element. The respective electronic configuration of Thallium is [Xe] 4f14 5d10 6s2 6p1. This element is not exclusively found or created naturally; rather, it can be created artificially by smelting lead and zinc. Thallium is also produced as a by-product while producing sulphuric acid.

Here is a Summary of the Relevant Attributes of the Element Thallium

Group	Boron
Thallium Symbol	Tl
Period	6
Melting Point of Thallium	304 °C
Thallium Boiling Point	1473° C
Block	13
Atomic Number	81
Density at 20°C	11.71 g.cm−3
Isotopes	205Tl
Atomic Mass	204.383 g.mol -1

Uses of Thallium

Some of the uses of thallium include:

Catalyst during organic reactions
For producing optic laser and related equipment
Radioisotopes and Mercury Lamps
Used in Infra-Red Photocells
It is also beneficial in detecting gamma radiation
It is also used manufacturing glasses
In ancient times, it was found helpful in killing ants and rats.
Certain Thallium salts have been used for skin treatments; however, it has more side-effects than benefits because of its highly toxic nature.

Physical Properties of Thallium

Thallium is a malleable metal and looks like Lead (Atomic Number 82) in appearance. Some of its peculiar properties are as follows:

It is very soft and melts easily. It can be cut through with a knife and will leave a mark when rubbed on a paper
It is heavy and bluish-white in appearance
On exhibition to air, it presents a metallic luster as well
It is sufficiently abundant
Its salts are soluble and usually toxic

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Chemical Properties of Thallium

A few noteworthy chemical properties of Thallium are:

Thallium has a +3 and +1 oxidation state. A +1 oxidation state is although much more stable and shows the chemistry of similarity to alkali metals
Thallium reacts with air to create a grey oxide film and when it is heated to enormous amounts it leads to creation of poisonous thallium oxide. The reaction is as follows:

2Tl(s) + O2(g) → Tl2O(s)

2Tl(s) + 2H2O(l) → 2TlOH(aq) + H2(g)

Thallium reacts vigorously with the following halogens – Fluorine, Chlorine and Bromine. This leads to origination of these dihalides – thallium fluoride, thallium chloride and thallium bromide. All these are extremely poisonous and their reactions are given below:

2Tl(s) + 3F2(g) → 2TlF3(s)

2Tl(s) + 3Cl2(g) → 2TlCl3(s)

2Tl(s) + 3Br2(l) → 2TlBr3(s)

Since Thallium is extremely poisonous, it dissolves at a slow speed in only sulphuric acid given as H2SO4 and Hydrochloric Acid given as Hcl.
Thallium does not get precipitated by sulfate ions and TI(l) is not precipitated by hydroxide ions. However, TI(lll) precipitates with hydroxide as shown in the below reaction:

2 Tl3+(aq) + 6 OH−(aq) →Tl2O3(s) [brown] + 3 H2O(l)

Structure of Thallium

Having 81 electrons, Thallium has a stable structure, and its atomic data is:

Atomic Data of Thallium

Atomic Number	81
Valence Electrons	35
Noble Gas Configuration	[Xe] 4f¹⁴5d¹⁰6s²6p¹ [1]
Electrons	81
Neutrons	124
Protons	81
Atomic Radius	1.96 Å [1]
Covalent Radius	1.44 Å [1]

Fun Facts

The name Thallium comes from a Greek word – Thallos, which means a green twig. This is so connected to this metal as it had a green spectral line.
It naturally occurs as a mix of two isotopes. However, today around 25 isotopes of Thallium have been discovered
Thallium is suspected to even be carcinogenic.
It can be found as a mineral in elements such as crooksite, lorandite
, and hutchinsonite. It was also discovered in iron pyrite, making it another source of Thallium. Ocean floors have manganese nodules, and a small amount of Thallium has been discovered in them as well.