What is catenation property of carbon?
Catenation property is found in organic as well as in
inorganic compounds. The catenation property mainly shows carbon element in
organic chemistry.
When
two or more atoms of an element combine with each other through the covalently
single bond, double bond or triple bond to form a long chain structure, then
that characteristic of the elements is called catenation property.
When a large number of carbon atoms are covalently bonded with each other through the single bond, double bond or triple bond, resulting in the formation of a large number of cyclic or open chain compounds, so in the case of carbon this properties is called catenation property of carbon.
Why does carbon shows highest degree of catenation?
The ionization potential of carbon is quite high and its electron affinity is of moderate quality. The sizeof carbon atom is small.
Now, it has been experimentally found that the carbon atom shows highest degree of catenation. Observations have shown that there are three main reasons for showing of catenation property by carbon atom.
(I)The C – C bond energy is higher than their expected value due to small size of carbon atom.
(II)Carbon shows tetravalency and forms large number of covalent bonds.
(III)Carbon occupied less diffused atomic
orbital due to small atomic size and hence a strong overlapping occurs among
the orbitals.
What is the importance of catenation property of carbon?
A large number of carbon
atoms easily form covalent bonds with each other to form long chain structures.
This property
of carbon is called catenation property.
It
is a very important property of carbon atom. This is because the number of
organic compounds in nature is so high because of this catenation of carbon.
Catenation
of property decreases down the group
In
general, the catenation property of
the elements decreases as we move from top to bottom along a group in periodic
table.
But exception of catenation property is
seen in the case of group-15 and group-16 elements of the periodic table.
For example, in case of group-15 elements,
the catenation property of P- atom is higher than that of N- atom which is reverse
of actual order.
This
is due date higher bond strength of P-P bond as compared to N-N bond. The
weakness of N-N bond is due to repulsion between the lone pairs present on the
two nitrogen atoms. But N2 molecule is stable due to triple bond.
Phosphorus
atom is also contains lone pairs but due to longer bond length, the lone pairs
exert less repulsion. Also the vacant d-orbitals on phosphorus involved in lone
pair delocalization.
The
catenation property of sulphur atom is also higher than that of oxygen atom
due to above similar reason.
Why sulphur shows more catenation property than oxygen?
The
bond energy of O – O double bond is thrice the O – O single bond energy.
Whereas S=S bond energy is less than twice the S-S bond energy.
So
S prefers forming two single bonds over one double bond, so chain continues. In
case of oxygen formation of double bond is preferred, however catenation to small extent can be
observed. For example peroxides, ozone.
Why does carbon show more catenation than silicon?
Both carbon and silicon atoms show maximum catenation property in their pure elemental forms under similar and ideal
conditions.
But the catenation
property found in carbon atom is
much higher than silicon atom for several reasons.
Carbon can form stable π bonds but silicon can’t.
Carbon-carbon single bonds are around 80% stronger than silicon-silicon bonds,
making catenated carbon more stable than catenated silicon.
Oxygen is the third most common element in the
universe. Catenated carbon is pretty stable even in the presence of oxygen,
because C-C bonds are about 85-90% as strong as C-O bonds.
On the other hand, Si-Si bonds are only about 32-35% as
strong as Si-O bond which are actually stronger than C-O bonds.
For the above reasons, it has been found that a large
number of carbon-carbon chains of any length can be formed and they will be
pretty stable. But silicon chains can’t
grow past around eight silicon atoms in length.
- What is catenation property of carbon?
- Why does carbon shows highest degree of catenation?
- What is the importance of catenation property of carbon?
- Catenation of property decreases down the group
- Why sulphur shows more catenation property than oxygen?
- Why does carbon show more catenation than silicon?
Catenation, carbon catenation, importance of
catenation, catenation and periodic table, carbon show more catenation than
silicon, catenation of sulphur and oxygen,
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